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Calibri14 Calibri14 Calibri1  Calibri1  Calibri1 Arial1 Calibri1 Calibri1  Calibri1 Calibri"$"#,##0_);\("$"#,##0\)!"$"#,##0_);[Red]\("$"#,##0\)""$"#,##0.00_);\("$"#,##0.00\)'""$"#,##0.00_);[Red]\("$"#,##0.00\)7*2_("$"* #,##0_);_("$"* \(#,##0\);_("$"* "-"_);_(@_).))_(* #,##0_);_(* \(#,##0\);_(* "-"_);_(@_)?,:_("$"* #,##0.00_);_("$"* \(#,##0.00\);_("$"* "-"??_);_(@_)6+1_(* #,##0.00_);_(* \(#,##0.00\);_(* "-"??_);_(@_)[$-409]h:mm:ss\ AM/PM h:mm;@                                                                      ff + ) , *     P  P        `            a>  " ! ! * ) (  20% - Accent1 20% - Accent2 20% - Accent3 20% - Accent4 20% - Accent5 20% - Accent6 40% - Accent1 40% - Accent2 40% - Accent3 40% - Accent4 40% - Accent5 40% - Accent6 60% - Accent1 60% - Accent2 60% - Accent3 60% - Accent4 60% - Accent5! 60% - Accent6 "Accent1 #Accent2 $Accent3 %Accent4 &Accent5 'Accent6(Bad) Calculation* Check Cell+,-./Explanatory Text 0Good1 Heading 12 Heading 23 Heading 34 Heading 4 5Input6 Linked Cell 7Neutral 8Note 9Output: ;Title <Total= Warning Text`Թ2009_Program  HPETER REHBEIN, Greg Evans, Cheol-Heon Jeong, Joel Corbin, Maygan McGuireP Southern Ontario Centre for Atmospheric Aerosol Research, University of Toronto1E.07[Intra-community spatial variation of size-fractionated organic compounds in Long Beach, CA.rMARGARET KRUDYSZ (1), Steven J. Dutton (2), Michael P. Hannigan (2), Philip M. Fine (3), Constantinos Sioutas (3) (1) Department of Environmental Health Sciences, University of California - Los Angeles, 650 Young Drive South, Los Angeles, CA 90095 (2) Department of Mechanical Engineering, College of Engineering and Applied Science, University of Colorado, Boulder, CO 80309, USA. (3) Department of Civil and Environmental Engineering, University of Southern California, 3620 South Vermont Avenue, Los Angeles, CA 90089. 1E.08EPM and the Beijing Olympics: Controls succeed when helped by weather._DANE WESTERDAHL (1), Xing Wang (1), Ye Wu (2), Jiming Hao (2), Xiaochuan Pan (3), Max Zhang (1)^(1) Cornell University, (2) Tsinghua University, (3) Peking University School of Public HealthFInstrumentation I Ballroom D1F.01=Particle Depletion Dynamics for Improved Particle Collection.tBrian Anderson, ANDREW HARTER, Paula Cable-Dunlap, Justin Halverson, Richard Dimenna, Si Young Lee, David Tamburello# Savannah River National Laboratory1F.02hUpdating the EPA Wind Tunnel Test Procedures for Qualification of PM10 FRM and FEM Ambient Air Monitors.4Lee Kenny (1), Tom Merrifield (2), Frank McElroy (3)K(1) U.K. Health and Safety, (2) BGI Incorporated (3) Independent Contractor1F.03New ISO Standards for Differential Mobility Aerosol Particle Sizing and Traceable Calibration of Condensation Particle Counters.GILMORE J. SEM, Joseph Vasiliou, Chiryo Tsunoda, Jürgen Spielvogel, Stefan Seeger, Jürg Schlatter, Hiromu Sakurai, Paul Quincey, Christian Peters, Miles Owen, Yoshio Otani, Leander Mölter, Ian Marshall, Kazuo Ichijo, Hans-Georg Horn, Ajaya Ghimire, Nobuhiko FukushimahInternational Organization for Standardization, Technical Committee 24, Subcommittee 4, Working Group 121F.04Measurements of atmospheric metal particles in real time using an Aerosol Focusing-Laser Induced Breakdown Spectroscopy (Aerosol Focusing-LIBS) during Asian Dust event.$JIHYUN KWAK, Gibaek Kim, Kihong Park, Gwangju Institute of Science and Technology1F.050A Personal Sampler for Engineered Nanoparticles.LJOHN VOLCKENS (1), Kirsten Koehler (2), Anthony Marchese (3), Amy Prieto (4)z(1) Colorado State University, (2) Colorado State University, (3) Colorado State University, (4) Colorado State University1F.06SA Miniature Disk Electrostatic Aerosol Classifier for Personal Nanoparticle Sizers.DLIN LI(1), Da-Ren Chen(1), Chaolong Qi(2), and Pramod S. Kulkarni(2)(1)Department of Energy, Environmental & Chemical Engineering, Washington University in St. Louis, (2)Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health, Cincinnati 1F.07jDerivatization of polar organic compounds for size and time resolved GC-MS analysis of vehicle derived PM.$DAN NIELSEN (1), Britt A. Holmen (2)1F.089Comparison of the Nafion and Diffusion Drying Techniques.JAMES E. FARNSWORTHTSI Incorporated, Shoreview, MNhSymposium: Atmospheric Aerosol Nucleation and Growth - Molecular Clusters to Nanoparticles to Climate II2A.01OSimulation of Atmospheric Nucleation Using a Regional Chemical Transport Model.RJaeGun Jung (1), Christos Fountoukis (2), Peter J. Adams (1), SPYROS N. PANDIS (1)(1) Carnegie Mellon Universtity, (2) Institute of Chemical Engineering and High Temperature Chemical Processes (ICEHT), Foundation for Research and Technology Hellas (FORTH), Patras, Greece2A.03>A Molecular-Level Perspective on Vapor-to-Particle Nucleation.<BRUCE C. GARRETT, Shawn M. Kathmann, and Gregory K. SchenterN Chemical & Materials Sciences Division, Pacific Northwest National Laboratory2A.05MAtmospheric New Particle Formation: Remaining Puzzles, and How to Solve Them.ARI LAAKSONEN (1,2)c(1) Finnish Meteorological Institute, Helsinki, Finland, (2) University of Kuopio, Kuopio, Finland 2A.07YInvestigation of Vapor Phase Association on Methanol Condensation in a Supersonic Nozzle.<HARTAWAN S. LAKSMONO, Shinobu Tanimura, Barbara E. Wyslouzil#The Ohio State University, ColumbusVSymposium: Recent Advances in Biomass Burning Emissions - Wildfire Emissions & Impacts2B.01Measurements Needed to Understand the Role of Biomass Burning within the Regulatory Framework of the Environmental Protection Agency and the Federal Land Managing Community.WILLIAM C. MALM (1) Jeffrey L. Collett, Jr. (2) Sonia M. Kreidenweis (2) Bret A. Schichtel (1) Hans Moosmuller (3) Wei Min Hao (4) Christian M. Carrico (2) (1) National Park Service (2) Department of Atmospheric Science, Colorado State University (3) Division of Atmospheric Sciences, Desert Research Institute (4) Rocky Mountain Research Stattion, USDA Forest Service2B.03}Effects of Fuel Moisture on Characteristics of Particle, Nutrient, and Air Toxics Emissions from Wildland Biomass Combustion.qL.-W. Antony Chen (1), April Shackelford (2), Dongzi Zhu (1), Paul Verburg (2), Rick Susfalk (3), Judith Chow (1)(1) Division of Atmospheric Sciences, Desert Research Institute, Reno, NV 89512 (2) Division of Earth and Ecosystem Sciences, Desert Research Institute, Reno, NV 89512 (3) Division of Hydrological Sciences, Desert Research Institute, Reno, NV 895122B.04DARA SALCEDO (1), Timothy Onasch (2), Leah Williams (2), Benjamin de Foy (3,4), Allison Aiken (5,6) Douglas Worsnop (2), Alexander Laskin (7), Vaithiyalingam Shutthanandan (7), Luisa Molina (4,8), Jose Jimenez (5):(1) Universidad Autónoma del Estado de Morelos, México, (2) Aerodyne Research Inc. (3) Saint Louis University, (4) Molina Center for Energy and the Environment, (5) University of Colorado, Boulder, (6) ETH-Zurich, Switzerland, (7) Pacific Northwest National Laboratory, (8) Massachusetts Institute of Technology3C.08Secondary Organic Aerosol (SOA) Formation via Aqueous-phase Reactions of Phenolic Compounds: Part 2  Product Insights from High Resolution Mass Spectrometry.;Yele Sun (1), QI ZHANG (1), Cort Anastasio (2), Jun Sun (3)(1) Atmospheric Sciences Research Center, University at Albany, State University of New York, Albany, NY, USA (2) Department of Land, Air & Water Resources, University of California, Davis, CA, USA (3) College of Architecture and Environment, Sichuan University, Chengdu, Sichuan, China3C.09lChemical Characterization of Water-Soluble Organic Matter (WSOM) in PM2.5 in the Southeastern United States.OYele Sun (1), QI ZHANG (1), Mei Zheng (2), Meiyu Dong (2), Eric S. Edgerton (3) (1) Atmospheric Sciences Research Center (ASRC), State University of New York, University at Albany, Albany, New York, USA. (2) School of Earth and Atmospheric Sciences, Georgia Institute of Technology, Atlanta, Georgia, USA (3) Atmospheric Research & Analysis, Inc.3C.10nDetermination of Evaporation Coefficients of Di-carboxylic Acid Aerosols Using the Coupled IVM-TDMA Technique.7RAWAD SALEH (1), Andrey Khlystov (1), Alan Shihadeh (2)6(1) Duke University, (2) American University of Beirut3C.11~A Semi-Empirical Correlation Between Saturation Concentration and Heat of Vaporization: Application to a Thermodenuder Model.1SCOTT A. EPSTEIN, Ilona Riipinen, Neil M. DonahueD Carnegie Mellon University, Center for Atmospheric Particle Studies3C.12PUnderstanding Episodes of High Airborne Particulate Matter in the Upper Midwest.Charles Stanier (1), Alex Bender (1), Gregory Carmichael (1), Adam Beranek-Collins (1), Morgan B. Yarker (1), Tracey Holloway (2), Sang Rin Lee (1), Alicia Pettibone (1), Scott Spak (1,2), and Sinan Sousan (1) 2(1) University of Iowa (2) University of Wisconsin3C.13;Trace Metals and Their Role in Secondary Sulfate Formation.ANDREA L. CLEMENTS (1), Birnur Buzcu-Guven (1), Matth< ew P. Fraser (1,2), Chunhua (Peter) Deng (3), Pranav Kulkarni (3), Shankar Chellam (3)g(1) Rice University, Houston, (2) Arizona State University, Tempe, (3) University of Houston, Houston 3C.14<Trends in the Hygroscopic Growth of Inorganic Nanoparticles.oMACKENZIE SMITH (1), Ernie Lewis (2), George Biskos (3), Amanda Mifflin (1), Robert McGraw (2), Scot Martin (1)X(1) Harvard University (2) Brookhaven National Laboratory (3) University of the Aegean 3C.15pHeavy Metals Deposited in the Dust from the Atmosphere in the Industrial Area of the Fe-Ni Foundry in Gllogovc.:SYL9 TAHIRSYLAJ (1), Letafete Latifi (2), Islam Fejza (3)(1)University of Prishtina,Fakulty of Mining and Metallurgy 40000 Mitrovica , Kosovo (2)Ministry of Environment and spatial Planning , 10000, Prishtin , Kosovo (3)University of Prishtina,Fakulty of Mining and Metallurgy 40000 Mitrovica , Kosovo3C.16Assessment of biomass burning impacts on ambient PM2.5 over the Southeastern U.S. in 2007 from analysis of archived FRM Filters.5XIAOLU ZHANG (1), Neil Frank (2), Rodney J. Weber (1)x(1) School of Earth and Atmospheric Sciences, Georgia Institute of Technology (2) USEPA, Air Quality Assessment Division3C.17&Fog Chemistry in Central Pennsylvania.NDEREK STRAUB (1), James Hutchings (2), Andrea Clements (3), Pierre Herckes (2)t(1) Susquehanna University, Selinsgrove, PA (2) Arizona State University, Tempe, AZ (3) Rice University, Houston, TX3C.18bEfflorescence and Deliquescence of Mixed Organic-Inorganic Particles as a Function of Temperature.AIDAN BODSWORTH, Allan BertramUniversity of British Columbia3C.19?Long-term measurement of PM2.5 components in mid-city of Korea.Seong-Rak Kim, Young-Ji HanT Department of Environmental Science, Kangwon National University, Chuncheon, Korea.3C.20MSize distribution of ionic, carbonaceous, and trace metals in fine particles., Pyung-Rae Kim, Young-Han HanRDepartment of Environmental Science, Kangwon National University, Chuncheon, Korea3C.21MThe Exchange of SVOCs Across The Air-Sea Interface In A Tropical Environment.%JUN HE and Rajasekhar BalasubramanianT Division of Environmental Science and Engineering, National University of Singapore3C.22Chain-length dependence of surface-active organic molecules on water mass accommodation coefficients: a molecular dynamics study./SATOSHI TAKAHAMA, Ranjit Bahadur, Lynn Russell H Scripps Institution of Oceanography, University of California San Diego3C.23HMeasurement of Particulate Matter During Dairy Operations in California.MDEREK J PRICE (1), Robert S Brown (1), Kori D Moore (2), Philip J Silva (1,3)i(1) Utah State University, Logan, (2) Space Dynamics Laboratory, North Logan, (3) USDA-ARS, Bowling Green3C.24dEvaluating the Mixing of Organic Aerosol Components Using High-Resolution Aerosol Mass Spectrometry.LEA HILDEBRANDT (1), Kaytlin Henry (1), Jesse H. Kroll (2), Marissa A. Miracolo (1), Allen L. Robinson (1), Spyros N. Pandis (1) (3), Neil M. Donahue (1)(1) Carnegie Mellon University, Pittsburgh, PA (2) Massachusetts Institute of Technology, Cambridge, MA (3) University of Patras, Foundation of Research and Technology (FORTH), Patra, Greece 3D.01(1) Environmental Modeling Laboratory, Technical University of Catalonia. Barcelona, Spain; (2) Barcelona Supercomputing Center  Centro Nacional de Supercomputacin (BSC-CNS). Earth Sciences Department. Barcelona, Spain; (3) Physics Department, Universidad de Murcia. Murcia, Spain; (4) Institute of Earth Sciences Jaume Almera, Spanish Research Council (CSIC-IJA). Barcelona, Spain; (5) Department of Mechanical and Aerospace Engineering, University of California Irvine. 2E.06Near-Road Size-Resolved Aerosol and Gas Concentrations:Development of a Hybrid Dispersion & Aerosol Dynamics Model with Evaluation against Ambient Measurements.Sang-Rin Lee(1)(2), Nicole Riemer(3), Matthew West(3), Rahul A Zaveri(4), Katharine Moore(5), Constantinos Sioutas(5), Ralph Delfino(6), Alberto Ayala(7), Todd Sax(7) and Charles O Stanier(1)(2)((1) University of Iowa, Iowa city (2) IIHR-Hydroscience & Engineering, Iowa city (3) University of Illinois, Urbana-Champaign (4) Pacific Northwest National Laboratory, WA (5) University Southern California, LA (6) University of California, Irvine (7) California Air Resource Board, Sacramento 2E.07aClimate Change Effects on Fine Particulate Matter (PM2.5) and Ozone Concentrations in California.VAbdullah Mahmud (1) Mark Hixson (1) Zhan Zhao (2) Shu-Hua Chen (2) Michael Kleeman (1)(1) Department of Civil & Environmental Engineering, University of California, Davis (2) Department of Land, Air and Water Resources, University of California, DavisInstrumentation II2F.01QFast observations of aerosol chemical properties with various online instruments.SANNA SAARIKOSKI (1) (2), Samara Carbone (1), Hilkka Timonen (1), Minna Aurela (1), Karri Saarnio (1), Timo Mäkelä (1), Doug Worsnop (3) (4), Risto Hillamo (1)(1) Finnish Meteorological Institute, Helsinki, Finland, (2) University of Colorado, Boulder, (3) University of Helsinki, Finland, (4) Aerodyne Research Inc., Billerica2F.02@Measuring Particle Asphericity and Density without Extra Effort.ALLA ZELENYUK (1), Dan Imre (2)?(1) Pacific Northwest National Laboratory, (2) Imre Consulting 2F.03hAn Aerosol Chemical Speciation Monitor (ACSM) for Routine Monitoring of Atmospheric Aerosol Composition.Nga L. Ng (1), Achim Trimborn (1), Scott C. Herndon (1), Timothy B. Onasch (1), Douglas R. Worsnop (1), Manjula R. Canagaratna (1), Jose-Luis Jimenez (2), Eiko Nemitz (3), JOHN T. JAYNE (1)u(1) Aerodyne Research, Billerica. (2) Univeristy of Colorado, Boulder. (3) Centre for Ecology & Hydrology, Edinburgh.2F.04Characterization of Charger Ions Using High Resolution DMA and Atmospheric Pressure Interface Time of Flight Mass Spectrometer (API-TOF-MS).HEIKKI JUNNINEN (1) Miakel Ehn (1) Katrianne Lehtipalo (1) Gerhard Steiner (2) Mikko Sipilä (1) Michele Attoui (3) Douglas Worsnop (1,4) Markku Kulmala (1)(1) University of Helsinki, Helsinki, Finland (2) University of Vienna, Vienna, Austria (3) University of Paris XII, Paris, France (4) Aerodyne Research, Billerica, USA2F.05KCharacterization of Ambient Aerosols based on Single-Particle Measurements.<RANJIT BAHADUR (1), Lynn M. Russell (1), Kimbery Prather (2)_(1) Scripps Institution of Oceanography, UCSD (2) Department of Chemistry and Biochemstry, UCSD2F.06XA Quadrupole Ion Trap Mass Spectrometer for the Real-Time Detection of Organic Aerosols.NG. Asher Newsome, Elias P. Rosen, Richard M. Kamens, Tomas Baer, GARY L. GLISH+University of North Carolina at Chapel Hill2F.07qAdvances in Thermal Desorption Aerosol GCxGC (2D-TAG) Including the Addition of Time-of-Flight Mass Spectrometry.NATHAN M. KREISBERG (1), Alex P. Teng (1) , Susanne V. Hering (1), David R. Worton (2), Tadeusz Górecki (3) and Allen H. Goldstein (2)](1) Aerosol Dynamics Inc., (2) University of California, Berkeley, (3) University of WaterlooeSymposium: Atmospheric Aerosol Nucleation and Growth - Molecular Clusters to Nanoparticles to Climate3A.01JOn the Connection between Galactic Cosmic Rays and Atmospheric Nucleation.ILONA RIIPINEN (1,2), Tuomo Nieminen (1), Rami Vainio (1), Ilya Usoskin (3), Mira Hulkkonen (1), Larisa Sogacheva (4), Sanna Sevanto (1), Miikka Dal Maso (1), Markku Kulmala (1)x(1) University of Helsinki, (2) Carnegie Mellon University, (3) University of Oulu, (4) Finnish Meteorological Institute3A.02DPersistent Daily Aerosol Nucleation Events at M< ountain-Top Location.YAnna Gannet Hallar (1), Doug Lowenthal (1), Christine Wiedinmyer (2), Ian B. McCubbin (1)Y(1) Desert Research Institute, Storm Peak Laboratory, Steamboat Springs (2) NCAR, Boulder3A.03^New Particle Formation and Particle Size Distributions During the 2008 Beijing Olympics Games.GXING WANG (1), Dane Westerdahl (1), Xiaochuan Pan (2), Ke Max Zhang (1)(1) Sibley School of Mechanical and Aerospace Engineering, Cornell University (2) Department of Occupational and Environmental Health, Peking University School of Public Health3A.04:Particle Nucleation above Forest and surrounding Farmland.iPUNITH D. NALLATHAMBY (1), Philip K. Hopke (1), Suresh Dhaniyala (1), Pier Marzocca (1), Sara C. Pryor(2)E(1) Clarkson University, Potsdam, (2) Indiana University, Bloomington3A.05cRecent Progress in the Measurements of Pre-nucleation Neutral Molecular Clusters in the Atmosphere.fJUN ZHAO (1), Fred Eisele (1), Mari Titcombe (2), Chongai Kuang (2), Peter McMurry (2), Jim Smith (1)(1) National Center for Atmospheric Research, Atmospheric Chemistry Division, Boulder, Colorado, 80301. (2) University of Minnesota, Department of Mechanical Engineering, Minneapolis, Minnesota, 55455. 3A.06VHygroscopic Growth and Deliquescence of NaCl Nanoparticles Coated with Surfactant SDS.Christopher W. Harmon, Sergey A. Nizkorodov, Vanessa M. Bergstedt, Douglas J. Tobias, Bosiljka Njegic, R. Benny Gerber, Theresa M. McIntire, Ronald L. Grimm University of California, Irvine3A.07rExploring aerosol nucleation and evolution in plumes using large-eddy simulation with online aerosol microphysics.JEFFREY PIERCE, Robin Stevens& Dalhousie University, Halifax, Canada3A.08XThe effects of concentration fluctuations on nanoparticle formation in exhaust dilution.YAN WANG, K. MAX ZHANG Cornell University3A.09Correlations of Aerosol Growth Rates with Sulfuric Acid and Ammonia: Atmospheric Observations of New Particle Formation in Kent, Ohio.Jingmin Li (1), David R. Benson (1), AMY M. SAGE (1), Mark E. Erupe (1), Li-Hao Young (1,2), William R. Montanaro (1), Flavia Frimpong1, Victoria Cunningham (1), Bryan Dailey (1), and Shan-Hu Lee (1) (1) Kent State University, Department of Chemistry, Kent, Ohio (2) Now at China Medical University, Department of Occupational Safety and Health, Taichung, Taiwan 3A.10TSulfuric Acid-Water-Ammonia Ternary Homogeneous Nucleation: Laboratory Observations./DAVID R. BENSON, Mark E. Erupe, and Shan-Hu LeeKent State University3A.11<Argon Nucleation in a cryogenic supersonic nozzle apparatus.ySomnath Sinha (1), ASHUTOSH BHABHE(1), Hartawan Laksmono (1), Judith Woelk (2), Reinhard Strey (2), Barbara Wyslouzil (1)P(1) The Ohio State Univeristy, Columbus (2) Universtät zu Köln, Köln, Germany3A.12Aerosol Concentrations and Size Distributions at Rural New York State Locations: Summer 2008 at Whiteface Mountain and Spring 2009 at Pinnacle State Park. Exhibit HallPlenarydAFRIM SYLA, Fisnik Kabashi, Besa Peci-Hajdari, Sami Makolli, Agron Veliu, Ismet Mulliqi, Zeqir ImeriC University of Prishtina, Republic of Kosova M E S P of Kosova3F.02jMeasurements of Hygroscopic and Volatile Properties of Atmospheric Ultrafine Particles in Korea and China.+JAE-SEOK KIM, Seungho Park, and Kihong Park: Gwangju Institute of Science and Technology (GIST), Korea3F.03;Origin of Ambient Fine Particles in Helsinki during Winter.qSAMARA CARBONE (1) Minna Aurela (1) Sanna Saarikoski (1) Markku Kulmala (2) Douglas Worsnop (2) Risto Hillamo (1)?(1) Finnish Meteorological Institute (2) University of Helsinki3F.04`Air Toxics and Aerosol Concentration at El Paso, Texas: Implications for Cross-Border Transport.GL.-W. Antony Chen (1), Ricky Tropp (1), Dongzi Zhu (1), Wen-Whai Li (2)(1) Division of Atmospheric Sciences, Desert Research Institute, Reno, NV 89512 (2) Department of Civil Engineering, University of Texas at El Paso, El Paso, TX 799683F.05CDetermining the Heterogeneity in Coarse Particles in an Urban Area.Uma Ramesh K. Lagudu (1), Suresh Raja (1), Philip K. Hopke (1), David C. Chalupa (2), Mark J. Utell (2), Gary Casuccio (3) ,Traci L. Lersch (3) and Roger R. West (3)(1) Center for Air Resource Engineering and Science, Clarkson University, Potsdam, New York 13699 (2) Department of Environmental Medicine, University of Rochester Medical Center, Rochester, New York, USA. (3) R.J. Lee Group, Monroeville, PA 151463F.06Temporal and Spatial Characterization of the Ambient Air Quality at the Center of Excellence (COE) in Environment and Energy Systems building in Syracuse, NY.EDMUND Mc-ADDY (1), Philip K. Hopke (1), Thomas Holsen (1) Xing Wang and K. Max Zhang (2) Myron Mitchell (3) (1) Clarkson University (2) Cornell University (3) SUNY College of Environmental Science and Forestry3F.07Particulate and Gaseous Pollutants Source Contribution Influencing Ambient Air Quality at the Center of Excellence (COE) in Environment and Energy Systems building in Syracuse, NY.3F.08Characterization and Comparison of Particle Number Concentrations and Size Distributions Measured at Two Sites in Rochester, NY.3F.09RQuantification of Organic Molecular Markers in Aerosols collected in Syracuse, NY.PHILIP K. HOPKE (1), Thomas M. Holsen (2), Yuanxun Zhang (3), Xiaoyan Xia (3), Tiffany J. Zananski (3), Edmund Mc-Addy (3), Mark Omara (3), (1) Department of Chemical and Biomolecular Engineering, Clarkson University (2) Department of Civil and Environmental Engineering, Clarkson University (3) Center For Air Resources Engineering and Science, Clarkson University 3F.11ZInvestigation of the effects of trees and noise barriers on ultrafine particle dispersion.lMING-YENG LIN(1), Andrey Khlystov(1), Gayle Hagler(2), Vlad Isakov(3), Richard Snow(4), Richard Baldauf(2,5)(1)Duke University, (2)US EPA, Office of Research and Development, National Risk Management Research Laboratory, Research Triangle Park, (3)US EPA, Office of Research and Development, National Exposure Research Laboratory, Research Triangle Park, NC, (4)ARCADIS, Research Triangle Park, (5)US EPA, Office of Air and Radiation, National Vehicle and Fuel Emissions Laboratory, Ann Arbor, MI3F.13Size-resolved Aerosol Chemistry in Beijing with a High Resolution Aerosol Mass Spectrometer (HR-ToF-AMS) during the 2008 Beijing Olympics.Yele Sun(1), LINYYAN HE(2), Xiaofeng Huang(2), Jian Tian(1), Liwu Zeng(2), Min Hu(3), Tong Zhu(3), Douglas R. Worsnop(4), John T. Jayne(4), Qi Zhang(1)(1) Atmospheric Sciences Research Center, State University of New York at Albany, USA (2) Key Laboratory for Environmental and Urban Sciences, Graduate School, Peking University, Shenzhen 518055, Guangdong, China (3) State Key Laboratory of Environmental Simulation and Pollution Control, College of Environmental Sciences and Engineering, Peking University, Beijing 100871, China (4) The Center for Aerosol and Cloud Chemistry, Aerodyne Research, Incorporated, Billerica, Massachusetts, USA3F.14Relationships between Size-fractionated Indoor and Outdoor Trace Elements at Four Retirement Communities in Southern California.Andrea Polidori (1), Ka Lam Cheung (1), Mohammad Arhami (1), Ralph J. Delfino (2), James. J. Schauer (3), and Constantinos Sioutas (1)w(1) University of Southern California, Department of Civil and Environmental Engineering, 3620 South Vermont Avenue, Los Angeles, CA 90089, USA (2) Department of Epidemiology, School of Medicine, University of California, Irvine, CA, 92697, USA (3) University of Wisconsin-Madison, Environmental Chemistry and Technology Program, 660 North Park Street, Madison, WI 53706, USA3F.15tIntra- and Inter-community variability in total particle number concentrations in the eastern Los Angeles air basin.8NEELAKSHI HUDDA, Katharine F Moore, Constantinos SioutasU Department of Civil and Environmental Engineering, University of Southern California3F.16jAircraft Emission Impacts in a Neighborhood Adjacent to a General Aviation Airport in Southern California.qSHISHAN HU (1), Scott Fruin (2), Kathleen Kozawa (3), Steve Mara (3), Arthu< r M. Winer (1), Suzanne E. Paulson (1)v(1) University of California, Los Angeles, (2) University of Southern California, (3) California Air Resources Board 3F.17tEvaluating the Air Quality Impacts of Beijing 2008 Olympic Games: On-road Emission Factors and Ambient Black Carbon.uXING WANG (1), Dane Westerdahl (1), Lung Chi Chen (2), Ye Wu (3), Jiming Hao (3), Xiaochuan Pan (4), K. Max Zhang (1)W(1)Sibley School of Mechanical and Aerospace Engineering, Cornell University, (2)New York University School of Medicine, Department of Environmental Medicine, (3)Department of Environmental Science and Engineering, Tsinghua University, Beijing, (4)Department of Occupational and Environmental Health, Peking University School of Public Health 3F.18KCollection and Testing of Nanometer TiO2 Aerosol in Workshop by Wet Method.'YI YANG, Zheng-Ping Wang, Shou-Wen ChenMSchool of Chemical Engineering, Nanjing University of Science and Technnology3F.19rA Comparison of Density Fractal Dimension Methods for Urban Aerosol Fractal-Like Aggregates in Chihuahua, México.vBalter Trujillo-Navarrete*, Eduardo Herrera-Peraza*, Rubén Mamani-Paco**, Telma Castro**, Francisco Paraguay-Delgado**Centro de Investigación de Materiales Avanzados S.C., Chihuahua, México (CIMAV), Depto. Medio Ambiente y Energía **Universidad Nacional Autónoma de México, México, México, Centro de Ciencias de la Atmósfera, UNAM, Ciudad Universitaria, 04510 México City, México3F.20}Highly-time resolved aerosol particle characteristics and source apportionment in Prague and small settlement in summer 2008.!JAN HOVORKA (1), Philip Hopke (2)D(1) Charles University, Prague, (2) CARES, Clarkson University, 3F.21VSpatial and Temporal Variability of Traffic Emissions: Mobile Laboratory Measurements.OCHEOL-HEON JEONG, Maygan McGuire, Rob McWhinney, Kelly Sabaliauskas, Greg EvansX Southern Ontario Centre for Atmospheric Aerosol Research, University of Toronto, Canada3F.22;Fast Roadside Measurement of Ultrafine Particle Volatility.+CHEON-HEON JEONG, Peter Rehbein, Greg Evans3F.23aDesign and Testing of a Rotating-drum Impactor with Time Resolved ultrafine Mass and Composition.Tuesday Plenary IWelcoming RemarksC Y Wu, Conference ChairUniversity of Florida`AEESP Lecture: Reactions at Interfaces in the Atmosphere: A New Dimension in Aerosol Research? Barbara Finlayson-Pitts!University of California - IrvineWhitby Award Presentation!David Pui, Awards Committee ChairUniversity of MinnesotaAgSymposium: Atmospheric Aerosol Nucleation and Growth - Molecular Clusters to Nanoparticles to Climate I Ballroom 11A.014Formation and Growth Rates of Atmospheric Particles.Peter H. McMurry (1), Fred L. Eisele (2), Chongai Kuang (1), Jeffrey T. Roberts (1), James N. Smith (2), Mari Titcombe (1), Jun Zhao (2):(1) University of Minnesota, Minneapolis (2) NCAR, Boulder1A.039Role of Sulphuric Acid in Atmospheric Particle Formation.HANNA VEHKAM KI (1), Theo Kurtn (1), Martta Toivola(1), I.K. Ortega Colomer(1), Ville Loukonen(1), Kai Ruusuvuori(1), Madis Noppel(2), Markku Kulmala(1) E(1) University of Helsinki, Finland (2) University of Tartu , Estonia1A.05PContributions of Organic Vapors to Nucleation and Growth of Nano-Sized Aerosols.*Lin Wang, Alexei Khalizov, and Renyi Zhangu Department of Atmospheric Sciences and Department of Chemistry Texas A&M University, College Station, TX 77843, USA 1A.07Nanoparticles in Urban Air.4MURRAY JOHNSTON, Christopher Zordan, Mark PenningtonUniversity of DelawareBRSymposium: Recent Advances in Biomass Burning Emissions - Aerosol Characterization Ballroom 21B.01CAerosols from Biomass Burning: Characteristics and Climate Effects.MEINRAT O. ANDREAE2Max Planck Institute for Chemistry, Mainz, Germany1B.03Investigations of Primary and Photo-oxidation Products of Wood Combustion with a High-Resolution Time-of-Flight Aerosol Mass spectrometer.ZM.F. HERINGA, P.F. DeCarlo, R. Chirico, T. Tritscher, A. S. H. Prévôt, U. Baltensperger #Paul Scherrer Institut, Switzerland1B.04iElemental analysis of aerosol mass spectrometer measurements of laboratory open biomass burning aerosols.Laura Mack (1), Taehyoung Lee (1), Jose-Luis Jimenez (2), Sonia Kreidenweis (1), Jeffrey Collett Jr (1), Hans Moosmüller (3), Cyle Wold (4), Joel R. Kimmel (2), Tim Onasch (5), Wei Min Hao (4), and William Malm (6)(1) Colorado State University, Fort Collins, (2) University of Colorado, Boulder, (3) Desert Research Institute, Reno, (4) Fire Science Lab, Missoula, (5) Aerodyne Research Inc, (6) CIRA, Fort Collins1B.05vAnalysis of Nitrogen Containing Organic Compounds in Biomass Burning Aerosols Using High Resolution Mass Spectrometry.0Jeffrey S. Smith, ALEXANDER LASKIN, Julia Laskin4Pacific Northwest National Laboratory, Richland, WA 1B.06,Brown Carbon in Smoldering Biomass Aerosols.RAJAN K. CHAKRABARTY (1), Hans Moosmüller (1), Lung-Wen Antony Chen (1), W. Patrick Arnott (2), Kristin Lewis (2), Claudio Mazzoleni (3)(4), Manvendra Dubey (4), Cyle E. Wold (5), Wei Min Hao (5), and Sonia Kreidenweis (6)(1) Division of Atmospheric Sciences, Desert Research Institute, Reno, Nevada (2) Department of Physics, University of Nevada Reno, Reno, Nevada (3) Department of Physics, Michigan Technological University, Michigan (4) Geochemistry and Climate Focus Team, Los Alamos National Laboratory, New Mexico (5) Fire Sciences Laboratory, Rocky Mountain Research Station, USDA Forest Service, Missoula, Montana (6) Department of Atmospheric Sciences, Colorado State University, Fort Collins, Colorado1B.07[HULIS in Fresh Biomass Burning and Ambient Aerosols in the Pearl River Delta Region, China.!PENG LIN (1), Jian Zhen Yu (1, 2)(1) Atmospheric, Marine and Coastal Environment Program, Hong Kong University of Science and Technology (2) Department of Chemistry, Hong Kong University of Science and Technology1B.08CCN Closure and Droplet Growth Kinetics for Biomass Burning Aerosols Sampled During NASA ARCTAS: Unraveling the Importance of Organic Chemical Effects.VTERRY L. LATHEM (1), Richard H. Moore (1), Bruce E. Anderson (2), Athanasios Nenes (1)W(1) Georgia Institute of Technology, Atlanta, (2) NASA Langley Research Center, HamptonCIndoor Aerosols Lake Superior1C.01bA New Model on Evaluation of the Electrostatic Effect on Particle Detachment Due to Human Walking.@Xinyu Zhang(1), GOODARZ AHMADI(1), Jing Qian(2), Andrea Ferro(2)(1) Department of Mechanical and Aeronautical Engineering, Clarkson University, (2) Department of Civil and Environmental Engineering, Clarkson University1C.02KCharacterization of Indoor Particle Resuspension due to Walking Activities.:KAI-CHUNG CHENG (1), Marian Goebes (2), Lynn Hildemann (1)G(1) Stanford University, Stanford, (2) Jay Hall & Associates, Annapolis1C.039Ozone Initiated Processing of Indoor Combustion Aerosols.FJoakim Pagels Magnus Lindskog Erik Nordin Erik Swietlicki Mats Bohgard Lund University1C.04FInfiltration of Outdoor Ultrafine Particles into a Manufactured House.)DONGHYUN RIM, LANCE WALLACE, ANDY PERSILY3 The National Institute of Standards and Technology1C.06/Speciation of Indoor Secondary Organic Aerosol.-Hardik Amin, Meagan Hatfield, KARA HUFF HARTZ( Southern Illinois University Carbondale1C.07gParticle Adhesion to Common Indoor Surfaces and Implications on Exposure to Environmental Contaminants.(JONATHAN THORNBURG (1), Jacky Rosati (2)X(1) RTI International, Research Triangle Park (2) U.S. EPA NHSRC, Research Triangle Park1C.088Size and Composition of Particles Produced while Frying.6KELLY SABALIAUSKAS Cheol-Heon Jeong Tim Sun Greg EvansP Southern Ontario Center for Atmospheric Aerosol Research, University of TorontoDAerosol Chemistry IMirage1D.01Temperature Effect on SOA Chemical Composition from Select Chamber Reaction Systems: From the Perspective of a Hig< h-Resolution Aerosol Mass Spectrometer.\LI QI(1), Shunsuke Nakao(1), Bethany Warren(1, 2), Quentin Malloy(1, 3), David Cocker III(1)(1) Department of Chemical and Environmental Engineering, Bourns College of Engineering, Center for Environmental Research and Technology (CE-CERT), University of California, Riverside, CA 92507, USA (2) Pacific Air and Environment, Suite 2B, 14 Glen Street, Eastwood NSW 2122, Sydney, Australia (3) Department of Civil and Environmental Engineering, Rice University, Houston, TX 77005, USA1D.02vOxidative Aging of Gas and Aerosol Products from the Ozonolyis of alpha-Pinene; Results from the MUCHACHAS 2 Campaign.PETER DECARLO (1), Torsten Tritscher (1), Arnaud Praplan (1), Peter Barmet (1), Peter Mertes (1), Neil Donahue (2), Josef Dommen (1), Andre Prevot (1), Urs Baltensperger (1);(1) Paul Scherrer Institute, (2) Carnegie Mellon University1D.03hBranching between fragmentation and functionalization pathways in the oxidation of atmospheric organics.{JESSE H. KROLL (1,2), Jared D. Smith (3), Sean H. Kessler (1), Dung L. Che (3), Douglas R. Worsnop (2), Kevin R. Wilson (3)q(1) Massachusetts Institute of Technology, (2) Aerodyne Research, Inc., (3) Lawrence Berkeley National Laboratory1D.04[Organic Aerosol Volatility during the Finokalia Aerosol Measurement Experiment (FAME-2008).YByong-Hyoek Lee (1), Evangelia Kostenidou (2), Lea Hildebrandt(1), Spyros N. Pandis (1,2)F(1) Carnegie Mellon University (2) University of Patras, Patra, Greece1D.05\Secondary Organic Aerosol Formation from Low Volatility Organics in Motor Vehicle Emissions.MARISSA A. MIRACOLO (1), Albert A. Presto (1), Andrew T. Lambe (1), Christopher J. Hennigan (1), Neil M. Donahue (1), Jesse H. Kroll (2), Douglas R. Worsnop (2), Allen L. Robinson*(1):(1) Carnegie Mellon University (2) Aerodyne Research Inc. 1D.06Reaction Rate and Product Formation from the Heterogeneous Reaction of Gaseous Ozone with Polycyclic Aromatic Hydrocarbons Adsorbed to Diesel Exhaust Particulate and Quartz Fiber Filters."N. Tucker Stevens, BRITT A. HOLMEN University of Vermont1D.07Using Thermal Desorption GC-MS to Predict Gas-Particle Partitioning and the Volatility Distribution of Primary Organic Aerosol.9NGOC NGUYEN, Manish Ranjan, Albert Presto, Allen Robinson Carnegie Mellon University1D.08VModeling Multicomponent Evaporation Inside Thermodenuders: Equilibration Times of SOA.ILONA RIIPINEN (1,2), Byong-Hyoek Lee (1), Jeffrey R. Pierce (3), Lea Hildebrandt (1), Neil M. Donahue (1), Spyros N. Pandis (4,1)n(1) Carnegie Mellon University, (2) University of Helsinki, (3) Dalhousie University, (4) University of PatrasEUrban Aerosol IRegency1E.01SFRM to DRUM Impactor Comparison and the Importance of Ultrafine Particulate Matter.gDavid E. Barnes (1), THOMAS A, CAHILL (1,2), Ralph Propper (2), Earl Withycombe (2), and Kori Titus (2)(1) University of California, Davis DELTA Group, (2) The Health Effects Task Force of Breathe California of Sacramento-Emigrant Trails 1E.02FUsing Clustering Algorithms to Understand Size-Resolved Particle Data.;KELLY SABALIAUSKAS Cheol-Heon Jeong Xiaohong Yao Greg EvansQ Southern Ontario Center for Atmospheric Aerosol Research, University of Toronto 1E.033Boundary Layer Interactions with Ultrafine Aerosol.4ALICIA PETTIBONE, William Eichinger, Charles StanierUniversity of Iowa1E.04^A Statistical Approach for Identifying Likely PM2.5 Sources on Days of Elevated Concentration.+Nanjun Chu, Joseph Kadane, Cliff Davidson 1E.05MShort Term Temporal Patterns of PM Components in the Southeast United States.STEPHANIE SHAW (1), Eric Edgerton (2), Ben Hartsell (2), John Jansen (3), Eladio Knipping (1), Naresh Kumar (1), Justin Walters (3) d(1) Electric Power Research Institute (2) Atmospheric Research & Analysis, Inc. (3) Southern Company1E.06Identification and Temporal Analysis of Particle Types Analyzed by the Aerosol Time-of-Flight Mass Spectrometer in Toronto, Ontario.SAMUEL JANISKO, James NollINational Institute for Occupational Health and Safety (NIOSH), Pittsburgh3G.38Development of an Aerosol Particle Mass Spectrometer (APMS) for detection of non-refractory inorganic and organic atmospheric aerosols.LAARNIE TUMOLVA, Kihong Park3G.39eModification and Evaluation of a PM-10 Inlet for Use in the Efficient Collection of 20 µm Particles.fMary Pierce, (1), Joseph Clement (1), Pam Murowchick(2), John Keifer (1), and CHRISTOPHER HOLLARS (1) L(1) Midwest Research Institute, Kansas City, Mo, (2) Alburty Lab, Drexel, Mo3G.40GAddressing Sources of Error in Nanoparticle Aerosol Filtration Testing.AMICHAEL LORE, Anthony R. Sambol, TeAnne Brown, Steven H. HinrichsJUniversity of Nebraska Medical Center Department of Pathology/Microbiology3G.41PIntegrated Unipolar Charger with Tailored Electrode Concentration Sensor (TECS).-ISHARA R.J HUNGAMA MUDALIGE, Suresh Dhaniyala3G.427Aerosol Focusing Characteristics for Non-laminar Flows.GUAN ZHAO, Suresh Dhaniyala3G.43qCalibration of Photoacoustic Aerosol Absorption Measurements with Simultaneous Spectroscopy of the Oxygen A-Band.:GUOXUN TIAN (1) Hans Moosmüller (1) W. Patrick Arnott (2)B(1) Desert Research Institute, Reno (2) University of Nevada, Reno3G.44oAnalysis of Polysaccharides, Monosaccharides, and their Derivatives by Liquid Chromatography Mass Spectrometry.=VERA SAMBUROVA, Shar Samy, Anna Cunningham, Barbara Zielinska$ Desert Research Institute, Reno, NV3G.45MParticle Losses in Aerosol Monitors for the Size Range of 1 to 5 Micrometers.GEORGE W. MULHOLLAND (1), Thomas G. Cleary (2), Jiann C. Yang (2), David L. Urban (3), Gary A. Ruff (3), Nathan Funk (4), Zengguang Yuan (4)(1) University of Maryland, College Park (2) National Institute of Standards and Technology, Gaithersburg (3) NASA Glenn Research Center, Cleveland (4) National Center for Space Exploration Research, Wednesday Plenary II`Friedlander Lecture: Aerosol Science and Technology Enabling a Potpourri of Energy Applications Pratim Biswas"Washington University in St. LouisFriedlander Award Presentation#Symposium: Biodefense - Aerobiology4A.01GAerobiology in Biodefense: Relevant Animal Models and Product Efficacy.M. Louise M. Pitt<United States Army Research Institute of Infectious Diseases4A.03tThe Microbiology of a Select Agent Bioaerosol Challenge: Implications for Vaccine and Therapeutic Efficacy Studies.TREVOR BRASEL, Krystle Agans, Edward Barr, Andrew Cawthon, Veronica Gonzales, Sara London, Felisha Romero, Steven Storch, Alicia Weldon, Robert Sherwood( Lovelace Respiratory Research Institute4A.04WConsistent, Reproducible Delivery of Aerosols for Respiratory Exposure Studies on Mice.qBRENTON R. STONE (1,2), Chang-Yu Wu(2), Brian K. Heimbuch(1), Rashelle S. McDonald(1), and Joseph D. Wander(3) (1) Applied Research Associates, Tyndall AFB, Fla; (2) Dept. of Environmental Engineering Sciences, U of Florida, Gainesville, Fla.; (3) Airbase Sciences Branch, Air Force Research Laboratory, Tyndall AFB, Fla.4A.05DAssessing the Quality of Samples Used in Studies of Airborne Spores.DR. JOSE-LUIS SAGRIPANTIFEdgewood Chemical Biological Center, Aberdeen Proving Ground, Maryland4A.06RSuccessful Bio-organism Extraction Procedure for Glass Fiber and Membrane Filters.@Jana Kesavan, Deborah Schepers, Jerold Bottiger, Edward StuebingNUS ARMY Edgewood Chemical Biological Center, Aberdeen Proving Ground, Maryland4A.07Bioaerosol Sampling with the Wetted Wall Cyclone on the Culturability and DNA Integrity of Bacteria Collected in a Laboratory and a Subterranean Transportation Center.MARIA KING and Andrew McFarland%Texas A&M University, College Station4A.08dAmbient aerosol characterization for improved understanding of bioaerosol diversity and fluctuation.JOSHUA L. SANTARPIA, Dillan J. Cunningham, Jerome U. Gilberry, Susan Kim, Emily E. Seay, Shanna A. Ratnesar-Shumate, Jason J. Quizon4 Johns Hopkins University Applied Physics LaboratoryhSymposium: Recent Advances in Biomass Burning Emissions - Source Modeling & < Measurement/Aerosol Exposure4B.01MEvaluating a global biomass burning source term using a global aerosol model.EDWARD HYER (1,2), Jeff Reid (2), James Campbell (1,2), Peng Xian (2), Jianglong Zhang (3), Cindy Curtis (2), Doug Westphal (2)v(1) University Center for Atmospheric Research (2) Naval Research Laboratory, Monterey (3) University of North Dakota 4B.03uEstimating the Contribution of Smoke and Its Source Regions to Fine Particulate Matter using a Hybrid-Receptor Model.Bret A. Schichtel (1), William C. Malm (1), Jeffrey L. Collett, Jr. (2), Amy P. Sullivan (2), Leigh A. Patterson (2), Amanda S. Holden (2)(1) National Park Service, Cooperative Institute for Research in the Atmosphere, Colorado State University, Fort Collins, Colorado, 80523-1375 (2) Department of Atmospheric Science, Colorado State University, Fort Collins, Colorado, 80523-1371 4B.04HMulti-Dimensional GC-MS for Organic Markers in Biomass Burning Aerosols.!MICHAEL D. HAYS (1), Yilin Ma (2)(1) U.S. Environmental Protection Agency, Office of Research and Development (2) California Air Resources Board, Monitoring and Laboratory Division 4B.05Comparison and Evolution of Particle Size Distributions from a High Efficiency Wood Boiler Using Two Types of Fuel: Wood Chips and Wood Pellets.[Suresh Raja (1), James Laing (1), Thomas Holsen (1), Philip K. Hopke (1), David Dungate (2)(1) Center for Air Resources Engineering and Science, Clarkson University, Potsdam, NY 13699 (2) Advanced Climate Technologies, LLC, 30 Commerce Park Dr., Schenectady, NY 12309 4B.06AMeasuring Exposure to Ultrafine Aerosols Using a Passive Sampler.David G. Nash, David Leith University of North Carolina|Relationship Between Prescribed Burning Emissions and Fuel Conditions in Managed Forests of the South-Eastern United States.KARSTEN BAUMANN (1), J. Mike Fort (1), Jamie J. Schauer (2), Don R. Blake (3), Steve R. Mitchell (4), Norm L. Christensen (4), Susan A. Cohen (5), Wayne P. Robarge (6), Ben E. Hartsell (7), Eric S. Edgerton (1)(1) ARA Inc., Research Triangle Park, (2) University of Wisconsin, Madison, (3) University of California, Irvine, (4) Duke University, Durham, (5) US Marine Corps Base, Camp Lejeune, (6) North Carolina State University, Raleigh, (7) ARA Inc., Plano2B.05LInfluence of Wildfire Events on Ambient Air Quality in Las Vegas Valley, NV.8BARBARA ZIELINSKA (1), WILLIAM CATES (2) RANDY WHITE (2)|(1) Desert Research Institute, Reno, NV (2) Clark County Department of Air Quality & Environmental Management, Las Vegas, NV2B.06GBiomass Burning in Southeast Asia and Its Impact on Aquatic Ecosystems.XSundarambal Palani (1), RAJASEKHAR BALASUBRAMANIAN (2), Pavel Tkalich (1) and Jun He (2)(1) Tropical Marine Science Institute, National University of Singapore, (2) Division of Environmental Science and Engineering, National University of Singapore2B.07cChemical characterization of biomass burning aerosols and an examination of their impact on clouds.qKerri Pratt (1), Shane Murphy (2), Cynthia Twohy (3), R. Subramanian (4), John Seinfeld (2), Kimberly Prather (1)(1) University of California, San Diego, (2) California Institute of Technology, (3) Oregon State University, (4) Droplet Measurement Technologies +Combustion: Nonroad Sources and Measurement2C.01=An Overview of the NASA Alternative Aviation Fuel Experiment.)Bruce Anderson and the AAFEX Science Team NASA Langley Research Center2C.02Characterization of the Fine Particle Emissions from Commercial Aircraft Engines during the Aircraft Particle Emissions Experiment (APEX) 1 to 3. JOHN KINSEYSU. S. Environmental Protection Agency, National Risk Management Research Laboratory2C.03PAssessment of Self-Pollution of School Buses with Various Retrofit Technologies.HARISH C. PHULERIA (1), Timothy V. Larson (2), Barbara Zielinska (3), Robert G. Ireson (4), Mark E. Davey (2), Christopher S. Weaver (5), John M. Ondov (6), Thomas W. Hesterberg (7), L.-J. Sally Liu (1,2)d(1) University of Basel, Basel, Switzerland, (2) University of Washington, Seattle, WA, (3) Desert Research Institute, Reno, NV (4) Air Quality Management Consulting, Greenbrae, CA, (5) Engine, Fuel, and Emissions Engineering, Inc., Rancho Cordova, CA, (6) University of Maryland, College Park, MD, (7) International Truck and Engine Corp., Warrenville, IL2C.04Sensitivity of Aerosol Emissions and Properties from a Heavy Duty NonRoad Diesel Tractor to blends of biodiesel and petrodiesel fuel.NKENTO T MAGARA (1), James J Schauer (1), Michael R Olson (1), Kenneth Walz (2)H(1) University of Wisconsin, Madison, (2) Madison Area Technical College2C.05KFundamental Investigation of Methods for SSolid Particle Measurements.JACOB SWANSON, David Kittelson% University of Minnesota, Twin Cities2C.065Device for controlled sampling from high temperature.rJORMA JOKINIEMI (1), Ari Auvinen (2), Leif Kåll (2), Teemu Kärkelä (2), Jussi Lyyränen (2), Johannes Roine (2)&(1) VTT, University of Kuopio, (2) VTT2C.07NEvaluation of Real-Time Vehicle Particulate Emissions Measurement Instruments.,XIAOLIANG WANG, Robert Anderson, Tim Johnson TSI Inc., St PaulAerosol Chemistry II2D.01Effects of Atmospheric Conditions on the Heterogeneous Oxidation of Molecular Markers Emitted from Motor Vehicles and Biomass Combustion.aCHRISTOPHER J. HENNIGAN, Marissa A. Miracolo, Andrew T. Lambe, Neil M. Donahue, Allen L. RobinsonD Center for Atmospheric Particle Studies, Carnegie Mellon University2D.02Effective Rate Constants and Uptake Coefficients for the Reactions of Organic Molecular Markers (Alkanes, Hopanes and Steranes) in Motor Oil and Diesel Primary Organic Aerosols with OH Radicals.ANDREW T. LAMBE (1, 2, 3), Marissa A. Miracolo (1), Christopher J. Hennigan (1), Allen L. Robinson (1), and Neil M. Donahue (1)L(1) Carnegie Mellon University (2) Boston College (3) Aerodyne Research Inc.2D.04Secondary Organic Aerosol (SOA) Formation via Aqueous-phase Reactions of Phenolic Compounds: Part 1  Reaction Kinetics and SOA Yields.CORT ANASTASIO (1), Jun Sun (2)E(1) University of California - Davis, (2) Sichuan University, China 2D.05qChemical Mechanisms in Aerosol Water and Cloud Water and Their Role in Secondary Organic Aerosol (SOA) Formation.iYONG BIN LIM (1), Yi Tan (1), Mark Perri (2), Katye Altieri (1), Sybil Seitzinger (1), Barbara Turpin (1)X(1) Rutgers University, New Brunswick, NJ, (2) Sonoma State University, Rohnert Park, CA2D.06kHumic-like Secondary Organic Material Formed by Methylglyoxal and Mixed Organics in Aqueous Aerosol Mimics.BV. FAYE MCNEILL, Erica L. Shapiro, Allison N. Schwier, Neha SareenColumbia University2D.07~Resolving the Thermodynamic and Kinetic Factors Governing Aerosol Droplet Size and Composition using Aerosol Optical Tweezers.OJONATHAN P. REID, Kerry Knox, Adele Laurain, Graham Hargreaves and Nana Kwamena# University of Bristol, Bristol, UKUrban Aerosol II2E.01fIntraurban Variability of Ambient Particulate Matter Arsenic and Other Air Toxics Metals in St. Louis.BVarun Yadav (1), JAY TURNER (1), Jerry Downs (2), Terry Rowles (2)T(1) Washington University in St. Louis, (2) Missouri Department of Natural Resources2E.02oDevelopment of an Automated Sampling System for Particle-Bound Reactive Oxygen Species in the Urban Atmosphere.RYUNGANG WANG (1), Philip K. Hopke (1), David C. Chalupa (2), and Mark J. Utell (2)(1) Center for Air Resource Engineering and Science, Clarkson University, Potsdam, New York, USA. (2) Department of Environmental Medicine, University of Rochester Medical Center, Rochester, New York, USA. 2E.03TRedox Activity of Urban Ultrafine Particles Formed by Primary and Secondary Sources.aVISHAL VERMA (1), Zhi Ning (1), Arthur K. Cho (2), James J. Schauer (3), Constantinos Sioutas (1)(1) University of Southern California, Los Angeles, (2) University< of California Los Angeles, (3) University of Wisconsin, Madison 2E.04WExamination of Carbonaceous Near-Road Aerosol at an Elementary School in Las Vegas, NV.uSteven G. Brown (1, 2), Jennifer L. Dewinter (1), Paul T. Roberts (1), Taehyoung Lee (2), Jeffrey L. Collett (2)9(1) Sonoma Technology, Inc, (2) Colorado State University2E.05Chemical Composition of Particulate Matter in Spain using the CALIOPE framework: a High-resolution Air Quality Modeling System.María T. Pay (1), Matthias Piot (2), Pedro Jiménez-Guerrero (3), Oriol Jorba (2), Carlos Pérez (2), JOSE M. BALDASANO (1,2), Xavier Querol (4), Marco Pandolfi (4), Andrés Alastuey (4), Donald Dabdub (5)@Kenneth E. Noll (1), Obatosin Aluko (2), Dhesikan Venkatesan (3)E(1,3) Illinois Institute of Technology, (2) AMEC NSS Ltd, Toronto, ON4F.05yAssessment of Air Toxic Emissions from On-Road Heavy Duty Diesel Vehicles Using Different Biodiesel Blends in California.M.-C. Oliver Chang(1), Julia Sandoval(1), Mindy Salazar(1), Inna Dzhema(1), Richard Ong(1), Michael Okafor (1), Paul Rieger(1), Bob Okamoto(1) and, Tom Durbin(2)R(1) California Air Resources Board (2) CE-CERT University of California, Riverside4F.06aChemical and Physical Characterization of PM2.5 from Controlled Burns of Southwest Biomass Fuels.yLI QI(1), David Cocker III(1), Ehsan Hosseini(2), Manish Shrivastava(2), Heejung Jung(2), Bob Yokelson(3), David Weise(4)(1) Department of Chemical and Environmental Engineering, Bourns College of Engineering, Center for Environmental Research and Technology (CE-CERT), University of California, Riverside, CA 92507, USA (2) Department of Mechanical Engineering, Bourns College of Engineering, Center for Environmental Research and Technology (CE-CERT), University of California, Riverside, CA 92507, USA (3) Department of Chemistry, University of Montana, Missoula, MT 59812, USA (4) Foreset Fire Laboratory, 4955 Canyon Crest Drive, Riverside, CA 92507, USA4F.073Intercomparison Study of Black Carbon Measurements.EBEN CROSS (1), Timothy Onasch (2), William Wrobel (1), Adam Ahern (1), Achim Trimborn (2), John Jayne (2), Jay Slowik (3), Christopher, Cappa (4), Daniel Lack(11), Sally Ng (2), Jason Olfert (6), Claudio Mazzoleni (10), Joshua Schwarz (7), Andy Freedman (2), Paola Massoli (11), Steffen Freitag (5), Tony Clarke (5), Benjamin Brem (12), Ryan Spackman (7), Arthur Sedlacek (6), R. Subramanian (8), Greg Kok (8), Dwight Thornhill (9), Mavendra Dubey(10), Charles Kolb (2), Doug Worsnop (2), Paul Davidovits (1) o(1) Boston College, (2) Aerodyne Research, Inc., (3) University of Toronto, (4) University of California, Davis, (5) University of Hawaii, (6) Brookhaven National Laboratory, (7) NOAA CIRES, (8) Droplet Measurement Technologies, (9) Virginia Polytechnic Institute and State University, (10) Los Alamos National Laboratory, (11) NOAA ESRL, (12) University of Illinois 4F.08[Size and compositionally speciated organic aerosols near a heavily traveled secondary road.EThomas M. Cahill (1), Nicholas J. Spada (2) and THOMAS A. CAHILL (2) (1) Division of Mathematical and Natural Sciences, Arizona State University  West campus, (2) DELTA Group, University of California, Davis 0Symposium: Nanomaterials for Energy Applications5A.01WFlame Synthesis of Spinel LiMn2O4 Cathode Material for Secondary Lithium Ion Batteries.#XIAOFENG ZHANG, Richard L. Axelbaum Washington University, St. Louis5A.023Synergy at the Interface: Energy and Nanomaterials.RANDY VANDER WAL (1) Gordon Berger (2) Michael Kulis (2) Vicky Bryg (2) Ken Street (3) Gary Hunter (3) Jennifer Xu (3) Laura Evans (3) Ching-Cheh Hung (3)Z(1) Penn State University (2) The NCSER c/o NASA-Glenn (3) The NASA-Glenn Research Center5A.03Toward a Carbon Nanotube Solar Cell: Charge Transfer within Hybrid Nanostructures of CdSe Quantum Dots Supported on Multiwalled Carbon Nanotubes.!KEHAN YU, Ganhua Lu, Junhong ChenH Department of Mechanical Engineering, University of Wisconsin-Milwaukee5A.04?Germanium Nanocrystal Thin Films for Photovoltaic Applications.!ZACHARY HOLMAN and Uwe Kortshagen% University of Minnesota, Minneapolis5A.05;Decorating Graphene Oxide Sheets with Aerosol Nanocrystals.!SHUN MAO, Ganhua Lu, Junhong Chen!University of Wisconsin-Milwaukee5A.06KSynthesis of ZnS Nanoparticles of Controlled Morphology by Spray Pyrolysis.Sha Liu, and Mark T. Swihart University at Buffalo (SUNY)5A.07PPhotocatalytic Oxidation of VOCs by TiO2 Coating on High-Efficiency Air Filters.^Frans Denny(1), Eric Permana(1), Jason Scott(1), Rose Amal(1), JING WANG(2), David.Y.H. Pui(2) (1) ARC Centre of Excellence for Functional Nanomaterials, School of Chemical Sciences & Engineering, University of New South Wales, Sydney, NSW 2052, Australia (2) Particle Technology Laboratory, Department of Mechanical Engineering, University of Minnesota, Minneapolis, MN, USA, 55455 %Nanoparticles and Materials Synthesis5B.01<Plasma Synthesis of Cerium-Doped YAG Phosphor Nanoparticles.hR. JAIN (1), J. V. Heberlein (1), S.L. Girshick (1), R. Mukherjee (2), T. Nakamura (2), A.Mochizuki (2)B(1) University of Minnesota, (2) Nitto Denko Technical Corporation5B.02-Surface Modification of Silica Nanoparticles.2Hee-Dong Jang, Dae-Sup Kil, Hankwon Chang, Kuk Cho4 Korea Institute of Geoscience and Mineral Resources5B.03vFabrication and Optical Properties of Spherical and Porous TiO2/SiO2 Composites Prepared by Aerosol Templating Method.dHANKWON CHANG (1), Hee Dong Jang (1), Sun-Kyung Kim (1, 2), Kyoung-Joon Oh (1, 2), Jin Hoon Choi (2)\(1) Korea Institute of Geoscience and Mineral Resources, Korea, (2) Sogang University, Korea5B.04fAnalysis of Porosity and Pore Size Distribution of Optical Fiber Soot Generated by Liquid Flame Spray.-JYRKI M. M KEL , Samuel Teini, Mikko Aromaa2Tampere University of Technology, Tampere, Finland5B.05VPhotoluminescence Quantum Yields from Crystalline and Amorphous Silicon Nanoparticles.REBECCA ANTHONY, Uwe Kortshagen5B.06IPreparation of Si nanoparticles with the chemical vapor synthesis method.NANNA L HDE (1), Kasperi Vuorikari (1), Unto Tapper (2), Jorma Jokiniemi (1,2)(1) University of Kuopio, Department of Environmental Science, Fine Particle and Aerosol Technology Laboratory (2) VTT Technical Research Centre of Finland, Fine Particles5B.07KSize-selected Flame-made Agglomerates of SnO2 nanoparticles as Gas Sensors.nHelmi-Marja Keskinen (1), Antonio Tricoli (1), Marko Marjamaki (2), Jyrki Makela (2), Sotiris E. Pratsinis (2)L(1) ETH Zürich, Switzerland, (2) Tampere University of Technology, Finland 5B.08GFlame Synthesis of SnO2-TiO2 Solid Solutions for Selective Gas Sensors.:Antonio Tricoli, Marco Righettoni and SOTIRIS E. PRATSINISiParticle Technology Laboratory, Department of Mechanical and Process Engineering, ETH Zurich, Switzerland5B.09DFlame synthesis and coating of nanostructured particles in one step.~ALEXANDRA TELEKI (1), Beat Buesser (1), Martin C. Heine (1), Frank Krumeich (1), Kamal M. Akhtar (2), Sotiris E. Pratsinis (1)u(1) ETH Zurich, Switzerland (2) Millennium Inorganic Chemicals (a Cristal Company), Research Center, Glen Burnie, USA5B.10KNumerical Model for Aerosol Charging and Dynamics in a Low-Pressure Plasma.8PULKIT AGARWAL(1) David Porter (2) Steven L Girshick (3)(1) University of Minnesota, Minneapolis (2) Minnesota Supercomputing Institute, Minneapolis (3) University of Minnesota, Minneapolis5B.11oSynthesis of position-tailored ZnO quantum dots in SiO2 matrix by aerosol-gel method and their characteristics.DDUDI ADI FIRMANSYAH, Sang-Gyu Kim, Kwang-Seung Lee, and Donggeun Lee( Pusan National University, Busan, Korea5B.12nFormation Mechanisms of Silica Particles from Precursors with Different Volatilities by Flame Spray Pyrolysis.vKUK CHO (1), Hankwon Chang (< 1), Dae Sup Kil (1), Jinho Park (1), Hyunho Kim (1), Hong Yong Sohn (2), Hee Dong Jang (1)](1) Korea Institute of Geoscience & Mineral Resources, (2) University of Utah, Salt Lake City5B.136Magnetic Nanoparticles from Organometallic Precursors.sJAMES SCHWAB (1), Min-Suk Bae (1), Olga Hogrefe (1), G. Garland Lala (1), Kenneth Demerjian (1), Brian P. Frank (2)C(1) University at Albany - SUNY, (2) New York State DEC, Albany, NY3A.13A New Atmospheric Pressure Interface Time-of-Flight (API-TOF) Mass Spectrometer for Measurements of Sub-3 nm Molecules and Clusters.MIKAEL EHN (1), Heikki Junninen (1), Tuukka Petäjä (1), Katrin Fuhrer (2), Marc Gonin (2), Urs Rohner (2), Douglas Worsnop (1,3), Markku Kulmala (1)(1) University of Helsinki, Helsinki, Finland, (2) Tofwerk AG, Thun, Switzerland, (3) Aerodyne Resarch Inc., Billerica, Ma, USA3A.14xSensitivity of Simulated Aerosol and Cloud Properties to Nucleation Parameterizations in 3-D Regional and Global Models.YANG ZHANG (1), Yao-Sheng Chen (1), Priya R. Pillai (1), Xin-Yi Dong (1), Peter H. McMurry (2), Fangqun Yu (3), Ralf Bennartz (4) (1) North Carolina State University, Raleigh, NC (2) University of Minnesota, Minneapolis, MN (3) State University of New York at Albany, Albany, NY (4) University of Wisconsin  Madison, Madison, WI3A.15Simulation of Particle Size Distribution with a Global Aerosol Model: Contribution of Nucleation to Aerosol and CCN Number Concentrations.FANGQUN YU, Gan Luo' State University of New York at Albany3A.16UObservations of New Particle Formation in the Tropical Atmosphere of South-East Asia.@RAJASEKHAR BALASUBRAMANIAN (1), Raghu Betha (1) and Ning Du (2) K(1)National University of Singapore, (2) California Institute of Technology3A.17QNucleation and Growth Mechanisms of Daytime and Nighttime New Particle Formation."Robert McGraw (1), Shan-Hu Lee (2)(1) Atmospheric Sciences Division, Environmental Sciences Department, Brookhaven National Laboratory, Upton, NY (2) Department of Chemistry, Kent State University, Kent, OH3A.18bStudy of new particle formation in the Upper Troposphere and Lower Stratosphere Using WACCM/CARMA.GJason English (1,2), Brian Toon (1,2), Mike Mills (1,2), Fangqun Yu (3)(1) Department of Atmospheric and Oceanic Sciences, University of Colorado at Boulder, (2) Laboratory for Atmospheric and Space Physics, Boulder (3) Atmospheric Sciences Research Center, State University of New York at Albany3A.19rParticle Formation Events at Rural Locations in New York: Comparison of Measured and Model Based Nucleation Rates.Min-Suk Bae (1), JAMES SCHWAB (1), Olga Hogrefe (1), Brian P. Frank (2), G. Garland Lala (1), Kenneth L. Demerjian (1), Fangqun Yu (1)(1) Atmospheric Sciences Research Center, University at Albany, State University of New York, Albany, New York, (2) Division of Air Resources, New York State Department of Environmental Conservation, Albany, NY7Symposium: Recent Advances in Biomass Burning Emissions3B.01Black Carbon (BC) mass concentrations and aging in biomass burning emissions: Measurements with a Single Particle Soot Photometer (SP2).:R SUBRAMANIAN (1), Gregory Kok (1), Darrel Baumgardner (2)Q(1) Droplet Measurement Technologies, (2) Universidad Nacional Autonoma de Mexico3B.02\Light Absorption by Organic Carbon from Wood Combustion Determined by Analytical Techniques.0YANJU CHEN (1), Tami C. Bond (1), Amadu Kanu (2)W(1) University of Illinois at Urbana- Champaign, (2) University of California, Berkeley3B.035Optical Properties of Biomass Burning Smoke Aerosols.E. J. T. LEVIN (1), L. Mack (1), C. M. Carrico (1), G. R. McMeeking (2), S. M. Kreidenweis (1), C. E. Wold (3), H. Moosmüller (4), W. P. Arnott (4), W. M. Hao (3), J. L. Collett, Jr (1)., and W. C. Malm (5)(1) Colorado State University, Fort Collins (2) University of Manchester, UK (3) Fire Sciences Laboratory, Missoula (4) Desert Research Institute, Reno (5) Cooperative Institute for Research in the Atmosphere, Fort Collins 3B.04nCharacterization of Smoke Particles by Electron Microscopy, Energy Dispersive Spectroscopy and Image Analysis.Ehsan Hosseini (1), Arthur Miller (2), Qi Li (1), David Cocker (III) (1), WeiMin Hao (3), Robert Yokelson (4), David Weise (3), Heejung Jung (1)y(1) University of California Riverside (2) NIOSH- Spokane Research Lab (3) USDA Forest Service (4) University of Montana 3B.05On-line Source Measurements of Organic Aerosols from Wood Combustion with a High-resolution Time-of-Flight Aerosol Mass Spectrometer.M.F. HERINGA (1), P.F. DeCarlo (1), R. Chirico (1), A.C.J. Richard (1), A. Lauber (2), A. Doberer (2), J. Good (2), T. Nussbaumer (2), A. Keller (3), H. Burtscher (3), B. Miljevic (4), A.S.H. Prévôt (1), U. Baltensperger (1)(1) Paul Scherrer Institut, Switzerland, (2) Lucerne University of Applied Sciences and Arts, Switzerland, (3) University of Applied Sciences Northwestern Switzerland, (4) Queensland University of Technology, Australia 3B.06Aerosol mass spectrometer measurement of the evolution of chemical smoke markers during laboratory open burning of wildland fuels.TAEHYOUNG LEE(1), Jeffrey L. Collett (1), Sonia M. Kreidenweis(1), Amy Sullivan(1), Laura Mack(1), Jose L. Jimenez(2), Joel Kimmel(2), Timothy B. Onasch(3), William Malm(4), Cyle Wold(5), Wei Min Hao(5) 0(1) Department of Atmospheric Science, Colorado State University (2) Department of Chemistry and Biochemistry, University of Colorado (3) Aerodyne Research Incorporated, Billerica (4) National Park Service/CIRA, Colorado State University (5) USDA/Forest Service Fire Science Laboratory, Missoula Montana 3B.080Particulate and Gas Sampling of Prescribed Fire.Efthimios Tagaris(1), Sangil Lee(2), Sivaraman Balachandran(1), Michelle Oakes(2), Neeraj Rastogi(2), Wenyan Shi(2), Di Tian(1, 3), Rodney Weber(2), Mei Zheng(2) and Armistead G. Russell(1)(1) School of Civil & Environmental Engineering, Georgia Institute of Technology, Atlanta, GA (2) School of Earth and Atmospheric Science, Georgia Institute of Technology, Atlanta, GA (3) Georgia Department of Natural Resources, Environmental Protection Division, Atlanta, GA 3B.09:Nitrogen Species from Biomass Burning in Lake Tahoe Basin.PZHU, DONGZI (1), L.-W. Antony Chen (1), Judith C. Chow (1), and Paul Verburg (2)(1) Division of Atmospheric Sciences, Desert Research Institute, Reno, NV (2) Division of Earth and Ecosystem Sciences, Desert Research Institute, Reno, NV 3B.10GStudy of Air Toxics Released from the Pre-Harvest Burning of Sugarcane.DANIELLE HALL (1), Chang-Yu Wu (1), James Stormer (2), Yu-Mei Hsu (3), Scott Brown (1), Krisha Capeto (1), Leandra Barwick (1), Mark Kalivoda (1)m(1) University of Florida (2) Palm Beach County Health Department (3) Wood Buffalo Environmental Association 3B.11nCharacteristics of particulate emissions from solid-fuel-based cooking: Results from rural India measurements.]Praney Dubey(1), SURESH DHANIYALA(1), Ajit Rajiva(2, Kalpana Balakrishnan(2), Ravi Krishna(3)(1)Mechanical and Aeronautical Engineering, Clarkson University, Potsdam, NY (2)Environmental Health Engineering, Sri Ramachandra University, Chennai, India (3)Chemical Engineering Department, Indian Institute of Technology Madras, Chennai, India 3B.12YCharacterization of PM from Cofiring of Coal and Biomass under Oxy-Combustion Conditions.7BENJAMIN M. KUMFER, Scott A. Skeen, Richard L. Axelbaum# Washington University in St. Louis3B.13oGaseous Emission Rates from a High Efficiency Wood Boiler Using Two Types of Fuel: Wood Chips and Wood Pellets.^JAMES LAING (1), Suresh Raja (1), Thomas Holsen (1), Philip K. Hopke (1), David Dungate (2) Y(1) Clarkson University, Potsdam, NY (2) Advanced Climate Technologies, Schenectady, NY 3B.14JOrganic Composition of Stack Emissions from a High Efficiency Wood Boiler.SURESH RAJA (1), James Laing (1), Yuanzhun Zhang (1), Ti< ffany J. Zananski (1), Thomas Holsen (1), Philip K. Hopke (1), David Dungate (2)(1) Center for Air Resources Engineering and Science, Clarkson University, Potsdam, NY 13699 (2) Advanced Climate Technologies, LLC, 30 Commerce Park Dr., Schenectady, NY 123093B.15]A Novel Approach to CFD Modeling of Unsteady Combustion and Flow in Wood Burning Cook Stoves..DANIEL D. MILLER-LIONBERG, Joshua N. Agenbroad Colorado State University3B.16OAnalyzing Biomass Smoke Marker Emissions from the Combustion of Paper Products.NAMANDA S. HOLDEN, David A. Chiavetta, Amy P. Sullivan, Jeffrey L. Collett, Jr.< Colorado State University Department of Atmospheric Science3B.17CAnalysis of Fresh and Aged Aerosols Produced by Biomass Combustion.rAMANDA S. HOLDEN (1), Yury Desyaterik (1), Jeffrey L. Collett, Jr. (1), Sonia M. Kreidenweis (1), William Malm (2)z(1) Colorado State University Department of Atmospheric Science, (2) National Park Service/CIRA, Colorado State University3C.01}Particulate Nitrate Formation in A Highly Polluted Urban Area: A Case Study by Single Particle Mass Spectrometry in Shanghai.!Xiaofei Wang, Hong Chen, XIN YANGTDepartment of Environmental Science & Engineering, Fudan University, Shanghai, China3C.02ZGeneration of Hydrogen Peroxide from San Joaquin Valley Particles in a Cell-Free Solution.-HUIYUN SHEN, Abdul I. Barakat, Cort Anastasio! University of California, Davis 3C.03`Air pollution charachterisation in Mitrovica with particulate matter and their trait dispersion.3AFRIM SYLA (1), Emin Krasniqi (2), Besa Hajdini (1)5(1) University of Prishtina, Kosova, (2) MESP, Kosova3C.04qOrganic Acid Products of Aqueous Methylglyoxal Oxidation and Implications to Secondary Organic Aerosol Formation.(YI TAN, Sybil Seitzinger, Barbara Turpin& Rutgers University, New Brunswick, NJ3C.05`Evaluating In-cloud Secondary Organic Aerosol Formation by Simulating Cloud Droplet Evaporation.UDIANA ORTIZ-MONTALVO (1), Mark Perri (2), Anjuli Ramos-Busot (1), Barbara Turpin (1)R(1) Rutgers University, New Brunswick, NJ, (2) Sonoma State University, Sonoma, CA3C.06tPhysicochemical characteristics of marine aerosols of Western Arctic, Russian coastal seas and of southern Atlantic.)MARINA CHICHAEVA (1), Anton Syroeshkin(2)State Oceanographic Institute3C.07gDetection of Particulate Lead during MILAGRO/MCMA-2006 Using High Resolution Aerosol Mass Spectrometry.^Diurnal Pattern of Aerosol Acidity and Secondary Organic Aerosol Formation in Ambient Aerosol.'Myoseon Jang, Tianyi Chen, Jaeyoun Jang# University of Florida, Gainesville5D.24ROrganic Aerosols at a Swedish Background Site - Measurements and Model Comparison.ERIK SWIETLICKI (1), Joakim Pagels (2), Axel Eriksson (2), Adam Kristensson (1), Erik Nilsson (1), Pontus Roldin (1), Birgitta Svenningsson (1)(1) Div. of Nuclear Physics, Lund University, Sweden, (2) (1) Div. of Ergonomics and Aerosol Technology, Lund University, Sweden5D.25Identification and Characterization of Biogenic and Anthropogenic SOA Components in a Rural Environment Based on Aerosol Mass Spectrometry.QI ZHANG (1), James D. Allan (2), Jian Tian (1), Jose-Luis Jimenez (3), Manjula R. Canagaratna(4), Ingrid M. Ulbrich(3), Nga. L. Ng (4), Astrid Kiendler-Scharr (5), Hugh Coe (2), Douglas R. Worsnop (4), Brent J. Williams (6), Allen H. Goldstein (6), Lynn Russell (7), Joost de Gouw (8)(1) Atmospheric Sciences Research Center (ASRC), University at Albany, State University of New York, 251 Fuller Road, Albany, NY 12203, USA (2) School of Earth, Atmospheric and Environmental Science, The University of Manchester, M60 1QD, UK (3) Dept. of Chemistry, and Cooperative Institute for Research in Environmental Sciences (CIRES), University of Colorado, 80309, Boulder, Colorado, USA (4) Aerodyne Research Inc., 45 Manning Rd., Billerica, Massachusetts, 01821-3976 USA (5) Institut für Chemie und Dynamic der Geosphäre, Forschungszentrum Jülich, D-52425 Jülich, Germany (6) Division of Ecosystem Sciences, University of California at Berkeley, Berkeley, CA 94720, USA (7) University of California at San Diego, California, USA (8) NOAA ESRL, Boulder, CO5D.267Shape and chemical structure of carbonaceous particles.*SATOSHI TAKAHAMA, Shang Liu , Lynn Russell5D.27Carbon Nanotube Filtration.-SEONG CHAN KIM, Weon Gyu Shin, David Y.H. Pui5D.28dAccurate quantification of aldehydes in air particulate matter: Analytical challenges and artifacts.0J. Beranek, M. Wahlsten, E. Kozliak, A. Kubatova0Chemistry Department, University of North Dakota5D.29gMass spectrometric study of secondary organic aerosol from the photooxidation of aromatic hydrocarbons.qKei Sato (1), Akinori Takami (1), Tasuku Isozaki (1), Toshihide Hikida (2), Akio Shimono (2), Takashi Imamura (1)o(1) National Institute for Envrionmental Studies, Tsukuba, Japan (2) Sanyu Plant Service Co., Sagamihara, Japan5D.30XThe Search of Lake Baikal Aqueous Aerosol Markers in the Region "!s Atmospheric Aerosol.Aleksandr N. Sergeev (1), ALEKSANDR S. SAFATOV (1), Aleksandr P. Agafonov (1), Irina S. Andreeva (1), Mikhail Yu. Arshinov (2), Boris D. Belan (2), Galina A. Buryak (1), Vladimir M. Generalov (1), Yulia R. Zakharova (3), Natalya A. Lapteva (1), Sergei E. Olkin (1), Mikhail V. Panchenko (2), Valentina V. Parfenova (3), Irina K. Reznikova (1), Denis V. Simonenkov (2), Tamara V. Teplyakova (1), Vladimir A. Ternovoi (1)(1) Federal State Research Institution SRC VB SVector , Koltsovo, Novosibirsk region, 630559, Russia (2) IAO SB RAS, 1, Square of Academician V. Zuev, Tomsk, 634021, Russia (3) Institute of Limnology SB RAS, 3, Ulan-Batorskaya, Irkutsk, 664033, Russia 5D.31ACharacterization of Carbonaceous Aerosol over the Atlantic Ocean.8HANSINA HILL (1), Rainer Lohmann (2), Pierre Herckes (1)N(1) University of Arizona, Tempe, (2) University of Rhode Island, Narragansett5D.32-Aging Time Scale of Atmospheric Black Carbon.SUNG HOON PARK Sunchon National University5D.33[An Ion Chromatographic Method to Determine Amines and Amine-N-oxides in Particulate Matter.Mark E. Erupe (1), Allegra Liberman-Martin (2), PHILIP J. SILVA (1, 3), Kathleen Purvis-Roberts (2), Quentin G. J. Malloy (4), and David R. Cocker, III (4)(1) Utah State University, (2) Claremont McKenna, Pitzer, and Scripps Colleges, (3) United States Department of Agriculture-Agricultural Research Service, (4) University of California, Riverside5D.34TSynthesis of simulated diesel particulate matter particles using model-PM generator.OWoojin Kim(1), Sang Bok Kim(1), Hakjoon Kim(2), Yong Jin Kim(2) Sang Soo Kim(1)t(1) Korea Advanced Institute of Science and Technology (KAIST) (2) Korea Institute of Machinery and Materials (KIMM)5D.35Development of New Dilution-based Technique to Measure Gas-particle Partitioning of Primary Organic Aerosol Emissions from Combustion Systems.,MANISH RANJAN Albert A Presto Allen Robinson+ Carnegie Mellon University, Pittsburgh, PA5D.36cVolatile Particle Matter and Primary Organic Aerosol Emissions from Civilian and Military Aircraft.MANISH RANJAN (1) Aaron Reeder (1) Ngoc Nguyen (1) Marissa Miracolo (1) Chris Hennigan (1) Albert Presto (1) Bruce Anderson (2) Scott Herndon (3) Richard Miake-Lye (3) Allen Robinson (1) (1) Carnegie Mellon University, Pittsburgh, PA (2) NASA Langley Research Center, Hampton, VA (3) Aerodyne Research Inc., Billerica, MA 5D.37Exploring the Relationship between Aerosol Size Distributions and the Oxidation Properties of Organic Aerosols Measured in New York City.JAMES SCHWAB (1), Min-Suk Bae (1), Qi Zhang (1), Jian Tian (1), Olga Hogrefe (1), G. Garland Lala (1), Ken Demerjian (1), Brian P. Frank (2)5D.38XMorphological analysis of fractal-like aerosol agglomerates in two an< d three dimensions.yRAJAN K. CHAKRABARTY (1), Shammah Chancellor (1), Hans Moosmüller (1), Christopher M. Herald (2), and Kurt M. Ehlers (3)(1) Desert Research Institute, Nevada System of Higher Education, Reno (2) Department of Mathematics and Statistics, University of Nevada, Reno (3) Department of Mathematics, Truckee Meadows Community College, Reno5D.39Organic Compound Characterization and Source Apportionment of Indoor and Outdoor Quasi-ultrafine PM in Retirement Homes of the Los Angeles Basin.Mohammad Arhami (1), María Cruz Minguillón (1), Andrea Polidori (1), James J. Schauer (2), Ralph J. Delfino (3) CONSTANTINOS SIOUTAS (1)n(1) University of Southern California, (2)University of Wisconsin-Madison, (3)University of California, Irvine3D.03vUltrafine particle and carcinogen emissions from cigarette and waterpipe (narghile, shisha, hookah) second hand smoke.Nancy Daher (1), Rawad Saleh (2), Hiba Shehetili (3), Ezzat Jaroudi (1), Elizabeth Sepetdjian (1), Mariam el Rashidi (1), Thérèse Badr (1), Najat Saliba (1), ALAN SHIHADEH (1)N(1) American University of Beirut, (2) Duke University, (3) Cornell University3D.04WValidation of a Mechanical Mechanism to Simulate Dust Resuspension from Human Activity.?YILIN TIAN, Shaun Jones, Sasikala Manthena, and Andrea R. Ferro Clarkson University, Potsdam, NY3D.05`Monitoring of Indoor Fine Particle Pollution from Secondhand Smoke in California Indian Casinos.cRUOTING JIANG, Viviana Acevedo-Bolton, Kai-Chung Cheng, Wayne Ott, Neil Klepeis, and Lynn Hildemannb Department of Civil and Environmental Engineering, Stanford University, Stanford, California, USA3D.07UUsing CONTAM with a New Resuspension Module to Estimate Exposures from Human Walking.mLISA D. A. BRAMWELL (1), Cynthia Howard-Reed (2), Stuart Dols (2), Andrew K. Persily (2), Andrea R. Ferro (1)5(1) Clarkson University, Potsdam, New York, (2) NIST3D.09bAn Advanced Robotic Measurement Platform to Characterize Floor Level Aerosol Exposure of Children.kZuocheng Wang(1), Gediminas Mainelis(1),(2), Kathy Black(2), and Marta Hernandez(2), Stuart L.Shalat(2),(3)(1) Rutgers University, Dept. Env. Sciences, 14 College Farm Rd., New Brunswick, NJ; (2) Environ. and Occup. Health Sciences Institute, 170 Frelinghuysen Road, Piscataway, NJ; (3) UMDNJ-Robert Wood Johnson Medical School, 675 Hoes Lane, Piscataway, NJ 3D.10jInvestigation of Emission Characteristics of Particles from Printers and Copiers Based on Number and Mass.rWon-Suk Hong, Hak-Joon Kim, Banwoo Han, Wan-Ho Shin, Dong-Keun Song, Sang-Hyun Jeong, Sung-Hoon Shim, Yong-Jin KimH Korea Institute of Machinery and Materials (KIMM), Daejeon, South Korea3D.11Removal of Airborne Mite Allergen Particles by the Air Cleaners Equipped with a Fine Mesh Mechanical Pre-filter and an Electrostatic filter.eHak-Joon Kim(1), Bangwoo Han(1), Yong-Jin Kim(1), Sung-Hwa Lee(2), Yong-Won Lee(3), Jung-Won Park(3)t(1) Korea Institute of Machinery and Materials (KIMM), (2) LG Electronics, (3) Yonsei University College of Medicine3D.12Accuracy Verification Testing of BioVigilant "!s Instantaneous Microbial Detection Instruments: Comparison of Sampler Results for Five Aerosolized Bacteria at Varying Concentrations.:PAMELA MUROWCHICK (1), David Alburty (1), Scott Morris (2)4(1) AlburtyLab, Inc. (2) BioVigilant Systems, Inc.3D.13fComputational and Experimental Study of Airflow and Particulate Pollutant Transport around a Building.?Behtash Tavakoli, Goodarz Ahmadi, Joshua Kehs, and Douglas BohlClarkson Univeristy3D.14PIndoor and Outdoor Carbon Concentration of Fine Aerosol In A Mega City- Mumbai.]Abba Elizabeth Joseph (1)(2), Seema Unnikrishnan (2), Rakesh Kumar (3), Zohir Chowdhury (1) (1) Environmental Health, Graduate School of Public Health, San Diego State University, San Diego, CA (2) National Institute of Industrial Engineering, Mumbai, India (3) National Environmental Engineering Research Institute, Mumbai, India3D.15yIndoor PM2.5 concentrations of dioxin and furan concentrations emitted from wood and plastic combustion in cooking fires. AMANDA NORTHCROSS, Kirk R. Smith# University of California, Berkeley Combustion I3E.016PM Characterisitics of Ethanol Fueled HCCI Combustion.,LUKE FRANKLIN, Anil Bika, David B. Kittelson University of Minnesota3E.02dThe Influence of Fuel Chemical Composition on Particle Emissions from an Advanced Combustion Engine.nTERESA L. BARONE, John M. E. Storey, Scott J. Eaton, Bruce Bunting, Raynella M. Connaster, and Samuel A. Lewis3Oak Ridge National Laboratory, Oak Ridge, Tennessee3E.03PUsing Straight Vegetable Oils in Combustion Turbines for Generating Electricity.3DARRICK ZARLING, Kelly Strebig, David B. Kittelson 3E.04QHydration Properties of Aircraft Exhaust Particles Measured during Project AAFEX.rDONALD HAGEN (1) , Prem Lobo (1), Philip Whitefield (1), Max Trueblood (1), Elizabeth Black (1), and Lucas Rye (2)L(1) Missouri University of Science & Technology (2) University of Sheffield 3E.05RThe Impact of Alternative Fuels on Volatile Aerosol Formation in Aircraft Exhaust.3ANDREAS BEYERSDORF (1), Michael Timko (2), K.L. Thornhill (1), E.L. Winstead (1), A. Bhargava (3), D.S. Liscinsky (4), C. Wey (5), K. Tacina(6), Z. Yu (2), T.B. Onasch(2), R.C. Miake-Lye (2), E. Corporan (7), M.J. DeWitt (8), C. Klingshirn (8), P. Lobo (9), J. Kinsey (10), R. Howard (11), B.E. Anderson (1)(1) NASA Langley Research Center, Hampton, VA; (2) Aerodyne Research Inc., Billerica, MA; (3) Pratt & Whitney, East Hartford, CT; (4) United Technologies Research Center, East Hartford, CT; (5) ASRC Aerospace Corp, Cleveland, OH; (6) NASA Glenn Research Center, Cleveland, OH; (7) Air Force Research Laboratory, Wright-Patterson AFB, Dayton, OH; (8) University of Dayton Research Institute, Dayton, OH; (9) Missouri University of Science and Technology; (10) US EPA NRMRL, Research Triangle Park, NC; (11) AEDC/ATA, Arnold AFB, TN3E.06AEmission characteristics of various passing vehicles on the road.FDaekwang Woo (1), Seungbok Lee (2), Gwinam Bae (2), Taesung Kim (1, 3)(1) School of Mechanical Engineering, Sungkyunkwan University (2) Environmental Technology Research Center, Korea Institute of Science and Technology (3) SKKU Advanced Institute of Nanotechnology, Sungkyunkwan University3E.07Characterization of Particle Number Emissions for Hybrid and Conventional Gasoline Vehicles Under Varying Operating Parameters.&MITCHELL K. ROBINSON, Britt A. Holmén3E.08VCharacterization of Gaseous Air Pollutants and Carbonaceous Particles from Motorcycle.zJAEHYUN LIM (1), Yunsung Lim (2), Cheolsoo Lim (2), Choongyeol Seo (3), Hyunmin Kim (2), Sangmoon Lee (4), Heejun Kang (5) (1) Climate Change Research Division, (2) Transportation Pollution Research Center and (3) Air Quality Research Division, National Institute of Environmental Research, Korea, (4) Research & Planning Team, Daelim Motor, Korea, (5) R&D Team I, S&T Motors Co.,Ltd., Korea 3E.09_Influence of Morphology and Microstructure of Engine-Emitted Soot on Its Scattering Properties.ARKA SOEWONO, Steve RogakE University of British Columbia, Department of Mechanical Engineering3F.01`Air quality monitoring of Kosova and atmospheric particulate matter concentration (PM10, PM2.5)._(1) University of Arkansas, Little Rock, AR (2) Virginia Commonwealth University, Richmond, VA 5F.01oPhysico-chemical and Toxicological Characteristics of Semi-volatile Particulate Matter in an Urban Environment.?PAYAM PAKBIN, Ka Lam Cheung, Vishal Verma, Constantinos Sioutas5F.02KImprovements in Urban Air Quality: Case Studies from New York State, U.S.A.CShannon M. Buckley (1), Myron J. Mitchell (1), PHILIP K. HOPKE (2) (1) Department of Environmental and Forest Biology, SUNY College of Environmental Science and Forestry, Syracuse, NY, (2) Center for Air Resources Engineering and Science, Clarkson University, Potsdam< , NY5F.03EAerosol Particle Emissions from Wastewater Treatment Aeration Basins.bQINYUE SUN (1), Nabin Upadhyay (1), Jonathan O. Allen (2), Paul Westerhoff (1), Pierre Herckes (1)A(1) Arizona State University, (2) Harvard School of Public Health5F.04JSpatial Variability of Coarse (PM10-2.5) Particles in Southern California.?Payam Pakbin Ka Lam Cheung Neelakshi Hudda Constantinos Sioutasf Department of Civil and Environmental Engineering, University of Southern California, Los Angeles, CA5F.05cMeasurement of Agricultural Field Emissions  Real World Herbicides in Vapor and Particle Phases.YJohn Kasumba (1), April Hiscox (2), Junming Wang (3), David Miller (4), Britt Holmén (1)y(1) University of Vermont (2) Louisiana State University (3) New Mexico State University (4) University of Connecticut 5F.06hMeasurements of Aerosol Chemical and Physical Properties during Wintertime Conditions near Boise, Idaho.PGEORGE R. MWANIKI, Shelley N. Pressley, Chelsea Rosenkrance, Timothy M. VanReken% Washington State University, Pullman5F.07SThe Influence of Anthropogenic Aerosols on the Atmosphere of the Los Angeles Basin.LEE THORNHILL (1), Bruce E. Anderson (2), Gao Chen (2), Edward Winstead (1), Andreas Beyersdorf (2), Glenn Diskin (2), Glen Sasche (2), Jack Dibb (3), Eric Scheuer (3), Jose Jimenez (5), Paul Wennberg (6), Greg Huey (4), Andy Weinheimer (7), and Rodney Weber (4)(1) SSAI, (2) NASA Langley Research Center, (3) University of New Hampshire, (4) Georgia Inst. of Tech., (5) University of Colorado, Boulder, (6) California Inst. of Tech., (7) NCAR5F.086Ultrafine Particle Penetration Through Vehicle Cracks.BIN XU, Shusen Liu, Yifang Zhu, Texas A&M University-Kingsville, Kingsville5F.09.Ultrafine measurements in a large Indian city.aPRANEY DUBEY(1), Suresh Dhaniyala(1), Kalpana Balakrishnan(2), Ravi Krishna(3), Shiva Nagendra(4)O(1)Mechanical and Aeronautical Engineering, Clarkson University, Potsdam, NY (2)Environmental Health Engineering, Sri Ramachandra University, Chennai, India (3)Chemical Engineering Department, Indian Institute of Technology Madras, Chennai, India (4)Civil Engineering Department, Indian Institute of Technology Madras, Chennai, India 5F.10@Study on Particle Dispersion Effect by Opposing Traffic Pattern.Meilu He, Suresh Dhaniyala5F.11<Measurements of Particle Distribution in Urban Environments.V Department of Mechanical & Aeronautical Engineering, Clarkson University, Potsdam, NY5F.12=Source Apportionment of PM 2.5 in Urban Wuhan, Central China.VWEIWEI LV(1), Xavier Querol(2), Yanxin Wang(1), Alastuey Andres(2), Macro Pandolfi(2) i(1) China University of Geosciences, Wuhan, China, (2) Institute of Earth Science, CSIC, Barcelona, Spain5F.13OAfternoon increases in organic acid groups at a coastal site in spring of 2009.*Shang Liu, Douglas A. Day, Lynn M. RussellXScripps Institution of Oceanography, University of California, San Diego, La Jolla, USA 5F.14xInitial Observations of Near-Road Aerosol with an Aerodyne High Resolution - Time of Flight - Aerosol Mass Spectrometer.VSteven G. Brown (1, 2), Paul T. Roberts (1), Taehyoung Lee (2), Jeffrey L. Collett (2)5F.15hSpatial Distribution of Black Carbon Concentrations over Roads in the Nowon-gu District of Seoul, Korea.GSEUNG-BOK LEE, Woon-Yong Kwon, Hyun-Cher Jin, Jae-Hee Jung, Gwi-Nam Bae8 Korea Institute of Science and Technology, Seoul, Korea5F.16OCalculation of particle number emission factors of motorway traffic in Germany.OCarmen Nickel, Astrid John, Ulrich Quass, Heinz Kaminski, Thomas A.J. Kuhlbuschu Institute of Energy and Environmental Technology (IUTA), Air Quality & Sustainable Nanotechnology, Duisburg, Germany5F.17ESource Apportionment of Airborne Particulate Matter in Eastern Texas.Hongliang ZHANG, Qi YingTexas A&M University5F.18Measuring Mass Concentrations of Urban and Rural Coarse Particulate Matter in Northeastern Colorado using Tapered Element Oscillating Microbalances (TEOM).sNICHOLAS CLEMENTS (1), Michael Hannigan (1), Jana Milford (1), Shelly Miller (1), Jon Ortega (1), Jennifer Peel (2)B(1) University of Colorado, Boulder, (2) Colorado State University5F.19An Electron Microscopy Study of Fine and Coarse Ambient Air Particles Collected at Different Times of the Year from Three Major Geographically-Distinct Urban Areas.'JOSEPH M. CONNY (1), Gary A. Norris (2)Z(1) National Institute of Standards and Techology (2) U.S. Environmental Protection Agency5F.20Investigating the Structure and Composition of Urban Ambient Air Particles Using Focused Ion-Beam Scanning Electron Microscopy.JOSEPH M. CONNY.National Institute of Standards and Technology5F.21JInorganic Particle Behavior in the Metropolitan Area of Sao Paulo, Brazil.}Taciana T. de A. Albuquerque (1), J. Jason West (2), Rita Yuri Ynoue (3), Erick Sperandio (4) , Maria de Fátima Andrade (5).(1) Institute of Astronomy, Geophysics and Atmospheric Sciences, University of So Paulo, Brazil. (2) Department of Environmental Sciences & Engineering, University of North Carolina/Chapel Hill. (3) Institute of Astronomy, Geophysics and Atmospheric Sciences, University of So Paulo (4)Department of Computer Science, University of Esprito Santo. Vitria  ES, Brazil. (5) Institute of Astronomy, Geophysics and Atmospheric Sciences, University of So Paulo, Brazil.5F.22NEvolution of Ultrafine Particle Size Distributions from a Major Arterial Road.&Remote & Regional Atmospheric Aerosols5G.015Long-term measurement of aerosol at Cape Hedo, Japan.YAkinori Takami(1),Naoki Kaneyasu(2), Kazuo Osada(3). Akio Shimono(4), Shiro Hatakeyama(5).(1)NIES, (2)AIST, (3)Nagoya-U, (4)SPS, (5)TUAT5G.02lCharacteristics of Fine and Coarse Particulate Matter in Central Asia: Preliminary Results from Kyrgyzstan.PAUL A. SOLOMON (1), Martin M. Shafer (2), James J. Schauer (2), Jeffrey J. Lantz (3), Igor Granberg (4), Boris Chen (5), Sanjar Imashev (5), Leonid Sverdlik (5), Greg Carmichael (6)+(1) U.S. EPA, ORD, Las Vegas, NV (2) University of Wisconsin, Madison, WI (3) U.S. EPA, ORIA, Las Vegas, NV (4) A. M. Obukhov Institute of Atmospheric Physics, RAS, Moscow, Russian Federation (5) Kyrgyz-Russian Slavic University, Bishkek, Kyrgyz Republic (6) University of Iowa, Iowa City, IA 5G.03vModeling of Dust: Incorporating the Wind Erosion Prediction System (WEPS) into a Regional Air Quality Modeling System.bSERENA H CHUNG (1), Brian K Lamb (1), Joseph Vaughan (1), Guanglong Feng (1), Brenton Sharratt (2)p(1) Washington State University, Pullman, Washington (2)USDA-Agricultural Research Service, Pullman, Washington 5G.04VRegional and Local Estimates of Primary and Secondary PM2.5 from Large Single Sources. KIRK BAKERJ United States Environmental Protection Agency, Research Triangle Park, NC5G.05ZTHOMAS A. CAHILL (1), David E. Barnes (1), Jonathan Lawton (1), and William E. Wilson (2) n(1) DELTA Group, University of California, Davis, (2) National Center for Environmental Assessment, US EPA RTP3F.24=Night-time Hyperspectral Imaging of Aerosols Near The Ground.KYael Etzion (1), DAVID BRODAY (1), Tsafrir Kolatt (2), Maxim Shoshany (3) (1) Environmental, Water and Agricultural Engineering, Technion, Haifa, Israel (2) Applied Spectral Imaging Ltd., Migdal-HaEmek, Israel (3) Transportation Engineering and Geo-Information, Technion, Haifa, Israel3F.25nDetermination of Aerosol Aviational, Meteorological Dependency and Differencies in the City of Lagos, Nigeria.< ONIFADE YEMI SIKIRU3 Crescent University, Abeokuta, Ogun State, Nigeria3F.26`The changes of heavy metal components in ambient particle during the sand-dust weather in China.& Pan Xiaochuan, Miao Fang, Qixin Wang ; Peking University School of Public Health, Beijing, China 3F.27BToward Obtaining Reliable Particulate Air Quality from Satellites.IA.W. STRAWA(1), R. Chatfield(1), M. Legg(2), R. Esswein(2), E. Justice(3)t(1) NASA - Ames Research Center (2) Bay Area Environmental Research, Inc. (3) Science Systems and Applications, Inc.3F.28jMeasurements of Spatial Variability in the Urban Atmosphere With Aerosol Time-of-Flight Mass Spectrometry.BAndrew P. Ault (1), Jessie M. Creamean (1), Kimberly Prather (1,2)P(1) University of California, San Diego, (2) Scripps Institution of Oceanography3F.29^Affects of Community Action in Reducing Near School Air Pollution in Davidson, North Carolina.((1) Cindy DeForest Hauser (2) JEFF BAKER"(1) Davidson College (2) TSI, Inc.3F.307Aerosol Concentrations Downwind of Freeway Sound Walls.KATHARINE MOORE (1), Ajay Chaudhary (1), Ka Lam Cheung (1), Neelakshi Hudda (1), Zhi Ning (1), Payam Pakbin (1), Vishal Verma (1), Constantinos Sioutas (1) Kathleen Kozawa (2), Steve Mara (2)H(1) University of Southern California (2) California Air Resources BoardG3G.01.Anti-iced heated inlets for airborne sampling.JDAVID ROGERS (1), Allen Schanot (1), Jack Fox (1), Jefferson R. Snider (2)`(1) National Center for Atmospheric Research (2) University of Wyoming, Dept Atmospheric Science3G.02MA Portable Ultrafine Particulate Sizer for in-situ Engine Exhaust Monitoring.EMATTHEW CASARI, Andrew Vize, Britt Holmén, Ph.D., Jeff Frolik, Ph.D.3G.03=Aerosol focusing in the widest size range of 5~1000nm in air.HKWANG-SEUNG LEE, Songkil Kim, Yongsuk Oh, Sung-Kyu Choi and Donggeun Lee-Pusan National University, Busan, South Korea3G.04oA characterization of a new single particle mass spectrometer installed with a reflectron and a new ion optics.DYONG SUK OH, Kwang-Seung Lee, Songkil Kim, Riyan Zahaf, Donggeun Lee.Pusan National University, Busan, South Korea 3G.05CChemical Speciation of Vanadium in Aerosol Particulate Matter (PM).mJoel Overdier (1), MARTIN SHAFER (1), Brandy Toner (2), James Schauer (1), Jorn Herner (3), Alberto Ayala (3)(1) University of Wisconsin, Madison, WI, (2) University of Minnesota, Minneapolis, MN, (3) California EPA, Air Resources Board3G.06Novel Approaches for Online Measurement of Nitrate in Ambient Aerosols: Development and Comparison of a UV-Spectrophotometric and a Biosensor Method.ISHANNON LANGE (1), Martin Shafer (1), James Schauer (1), Rodney Weber (2)G(1) University of Wisconsin, Madison, WI, (2) Georgia Tech, Atlanta, GA3G.07SComparisons and Relationships between Aerodynamic and Optical Aerosol Measurements.ZKori Moore (1), Randy Martin (2), BILL BRADFORD (1), Derek Jones (1,2), Michael Wojcik (1)8(1) Space Dynamics Laboratory, (2) Utah State University3G.08pTransfer Functions and Resolutions of Three Differential Mobility Analyzers for Sub-2nm Particle Classification.JINGKUN JIANG (1), Michel Attoui (2), Nicholas Brunelli (3), Peter H. McMurry (1), Richard Flagan (3), and Konstantinos Giapis (3)`(1) University of Minnesota, (2) University of Paris XII, (3) California Institute of Technology3G.09Comparison of the Aerosolization and Nanoparticle Tracking (Nanosight LM10) Techniques for Size and Concentration Measurements of Colloidal Suspensions and its Application in Determining Retention of Nanoparticles in Liquids.'TSZ YAN LING, Jing Wang, David Y.H. Pui^ Particle Technology Laboratory, Department of Mechanical Engineering, University of Minnesota3G.10>Characterzation of Sub-100nm Particle Loss in Aersol Diluters.#Aaron M. Collins David B. Kittelson3G.11/Performance Characterization of a DustTrak DRX.PXIAOLIANG WANG, Anthony Hase, Gregory M. Olson, Avula Sreenath, Jugal K. Agarwal3G.12STwo-Dimensional Angular Scattering Instrument for Single Particle Characterization.YMATTHEW J BERG (1), Steven C. Hill (1), Christopher M. Sorensen (2), Amit Chakrabarti (2)W(1) US Army research Laboratory, Adelphi, MD (2) Kansas State University, Manhattan, KS3G.13?Portable Instruments for Measuring Tailpipe Diesel Particulate.5JAMES NOLL, Jon Volkwein, Samuel Janisko, Larry Patts> National Institute for Occupational Safety and Health (NIOSH)3G.14fEffects of Buffer Concentrations on the Solubility and Redox-Speciation of Iron in Particulate Matter.NABIN UPADHYAY, Pierre Herckes Arizona State University, Tempe3G.16?New algorithms for inversion of fast-scanning DMA measurements.#PRANEY DUBEY and Suresh Dhaniyala, ! Clarkson University, Potsdam, NY3G.18hEvaluation of Chemical Composition of Aqueous Nanoparticles and Atmospheric Aerosol Using Optical Fiber.NNguyen Thi Kieu Hanh (1), JIHUN MUN (1), Atul Kulkarni (2), Taesung Kim (1, 2)(1) SKKU Advanced Institute of Nanotechnology, Sungkyunkwan University (2) School of Mechanical Engineering, Sungkyunkwan University3G.19|Development and Application of Reference Filters to Verify the XRF Measurement of Particulate Sulfur in the IMPROVE Network.iHEGE INDRESAND, Krystyna Trzepla-Nabaglo, Brian Perley, Warren H. White, Charles McDade, Ann M. Dillner University of California Davis3G.20mEstimating Vapor and Particle Concentrations Simultaneously Using a Semivolatile Aerosol Dichotomous Sampler.SEUNG WON KIM, Peter C. Raynor3G.21JAn Optimum Swirl Generator Devises for Gas Cooling Towers of Cement Plant.XAli Kalantarifard (1), Omid Abouali (1), Mohammad Mehdi Alishahi (1), GOODARZ AHMADI (2)-(1) Shiraz University (2) Clarkson University3G.23A Hybrid Method for PM CEMS.6KEVIN J. GOOHS, John Hiss, Mark Rossmeisl, Dieter Kita Thermo Scientific, Franklin, MA3G.24.A Portable Real-time Mass Measurements Device.KEVIN GOOHS, Alan Matta' Thermo Fisher Scientific, Franklin, MA3G.25HDevelopment of an aerosol concentrating inlet for use with Aerosol-CIMS.0NEHA SAREEN, Allison N. Schwier, V. Faye McNeill Columbia University, New York3G.26Development and Characterization of a Coarse and Fine PM Chemical Speciation Sampler with Multiple Filters to Obtain a Nearly Complete Mass Balance.qLUCAS CRAIG (1), Andy May (1), Suresh Dhaniyala (1), Philip K. Hopke (1), John Tisch (2), and Paul A. Solomon (3)(1) Clarkson University, Potsdam, (2) Tisch Environmental, Inc, Village of Cleves, (3) National Exposure Research Laboratory, US EPA, Las Vegas3G.27oCharacterization of a Novel Large Particle Inlet and Novel Passive Large Particle Impactors for PM > 10 µm.2Andrew May, SURESH DHANIYALA, and Thomas M. Holsen Clarkson University3G.28FDevelopment of a Particle Injection System for an Aerosol Wind Tunnel..Andrew May, SURESH DHANIYALA, Thomas M. Holsen3G.29/Performance Study of a Portable Particle Sizer.BLIN LI (1), Da-Ren Chen (1), Paul Greenberg (2), William Yanis (2)(1) Department of Energy, Environmental and Chemical Engineering, Washington University in St. Louis, (2) Microgravity Combustion and Reacting Systems Branch, NASA-Glenn Research Center,Cleveland 3G.31NVibrating Orifice Aerosol Generator: Droplet generation frequencies revisited.1Kevin J. Gucwa, ARASH MOHARRERI, Suresh Dhaniyala[ Mechanical and Aeronautical Engineering Department, Clarkson University, Potsdam, NY 136993G.32VDesign and Testing of a Semi-continuous Measurement System for Ionic Species in PM2.5.$Sang Bum Hong (1), DAE SEONG KIM (2)](1) Korea Polar Research Institute (2) Gwangju Institute of Science and Technology (GIST) 3G.33ZDeveloping a New Sampling Train for the Measurement of Hexavalent Chromium in Ambient Air.` Mehdi Amouei Torkmahalleh (1) , Thomas M. Holsen(2) , Robert A. Cully (2), Philip K. Hopke (1),1-Center for Air Resource Engineering and Science, Clarkson University, 2- Department of Civil and Environmental Engineering, Clarkson University, 3G.34eOn-board Quantification of Hybrid and Conventional Vehicle Tailpipe Em< issions under Variable Terrain.GKAREN M. SENTOFF (1), Mitchell K. Robinson (2), Dr. Britt A. Holmen (3)s(1) University of Vermont, Burlington, (2) University of Vermont, Burlington, (3) University of Vermont, Burlington3G.35oInvestigation of Autoregressive Model Based Feature Extraction for Single Particle Mass Spectral Data Analysis.<Weixiang Zhao, Keith Bein, Cristina E. Davis, ANTHONY WEXLERUniversity of California, Davis3G.36sAgglomeration, Isolation and Dissolution of Commercially Manufactured Silver Nanoparticles in Aqueous Environments.SHERRIE ELZEY, Vicki Grassian University of Iowa, Iowa City3G.37]The Effects of Filter Media on Real Time Light Extinction by Fresh Diesel Particulate Matter.)Liu Award and Sinclair Award Presentation!Symposium: Biodefense - Detection6A.01_High speed video study of complex multiphase flow in a wetted-wall bioaerosol sampling cyclone.=JOSH HUBBARD (1,2), John Haglund (1,2), Ofodike Ezekoye (1,2)(1) The Applied Research Labs at the University of Texas at Austin (2) Department of Mechanical Engineering, University of Texas at Austin6A.02jDevelopment of a Micro-Aerodynamic Lens Array Aerosol Concentrator for Bio-Aerosol Sampling and Detection.{PETER C. ARIESSOHN (1), Igor V. Novosselov (1), J. Scott Meschke (2), Michael G. Yost (2), Karl Arnold (3), Gary Hannah (3)O(1) Enertechnix, Inc., (2) University of Washington, (3) NNSA Kansas City Plant6A.03iA Compact, Rapid Concentrator for Increased Sensitivity of Commercially Available Protein Detection Kits.OANDREW PAGE (1), Pamela Murowchick (2), David Alburty (1,2), Alec Adolphson (2)#(1) InnovaPrep, (2) AlburtyLab Inc.6A.04oComparision of Impactor Collection Efficiency Using Nanochannel Glass versus Solid Glass Collection Substrates.CHARLES MERRITT (1) Cathy Scotto (1) Horn-Bond Lin (1) Jay Eversole (1) Owen Price (2) Bahman Asgharian (2) Nate Jones (3) Rick DeFreez (3) Greg Frye-Mason (3)(1) US Naval Research Laboratory, Washington DC (2) Applied Research Associates (ARA), Raleigh NC (3) ICx Technologies, Albuquerque, NM6A.05iCollection Efficiencies of an Electrostatic Sampler with Superhydrophobic Surface for Fungal Bioaerosols.TAEWON HAN, Gediminas MainelisQ Department of Environmental Science, Rutgers, the state university of New Jersey6A.06>Computational Fluid Dynamics Simulation of a Bioaerosol Inlet.9YINGJIE TANG, Sridhar Hari, Andrew R. McFarland, Bing Guo Texas A&M University6A.077Aerosol Generators for Evaluating Bioaerosol Detectors.&JEROLD BOTTIGER (1) Tiffany Sutton (2)-(1) U.S.Army, ECBC, (2) NOBLIS, Edgewood, MD6A.08eMeasurements of Dual-Excitation-Wavelength Fluorescence Spectra for Individual Atmospheric Particles.cYong-Le Pan (1), Hermes Huang (1), Steven C. Hill (2), Ronald G. Pinnick (2), Richard K. Chang (1)N(1) Yale University Department of Applied Physics (2) Army Research Laboratory8Symposium: Fundamentals and Applications of Electrospray6B.01_Tandem Differential Mobility Analysis-Mass Spectrometry of Electrospray-Generated Nanoclusters.<CHRISTOPHER J. HOGAN JR (1,2), Juan Fernandez de la Mora (1)=(1) Yale University, New Haven, CT (2) SEADM, Boecillo, Spain6B.02OTuning of Coulombic Fission-Related Progeny Droplet Size using Ionic Compounds.Harry C. Hunter, ASIT K. RAYd Department of Chemical and Materials Engineering, University of Kentucky, Lexington, KY 40506-0045.6B.036Fundamental Study of an Electrospray Particle Charger.QISHENG OU, Lin Li, Da-ren Chena Department of Energy, Environmental and Chemical Engineering, Washington University in St. Louis6B.04KElectrospray synthesis of PLGA micro- and nano-particles for drug delivery.<BEGONA ALMERIA (1), Tarek M. Fahmy (2), Alessandro Gomez (1)s(1) Department of Mechanical Engineering, Yale University (2) Department of Biomedical Engineering, Yale University6B.05mCharacterization of Particles Generated by the Aerosol Generator with Twin Dual-capillary Electrospray Heads.HUIJING FU, Daren Chen6B.06AModeling Electrospray Droplets Transport for Thin Film Formation.5Jordi Grifoll-Taverna (1), JOAN ROSELL-LLOMPART (1,2)(1) Department of Chemical Engineering, Universitat Rovira i Virgili, Tarragona, Spain, (2) ICREA (Catalan Institution of Research and Advanced Studies), Barcelona, Spain 6B.07[Characterization and Deposition of Natural Light-Harvesting Chlorosomes Using Electrospray.TLUIS MODESTO-LOPEZ (1), Aaron Collins (2), Robert Blankenship (2), Pratim Biswas (1)(1) Department of Energy, Environmental and Chemical Engineering, (2) Department of Chemistry and Biology, Washington University in St. Louis6B.08jElectrospraying Insulating Liquids Via Charged Nanodrop Injection from the Taylor Cone of an Ionic Liquid.)CARLOS LARRIBA, Juan Fernandez de la Mora Yale University#Symposium: Aerosol Drug Delivery I 6C.01{In vivo measurements of local targeting of inhaled aerosols achieved via magnetic alignment of high aspect ratio particles.*Po-Yin Cheung, Warren H. Finlay, Andrew R. Martin, Bernard Thébaud, Richard B. Thompson, GILLIAN E. S. REDMAN and, Paul Waszak University of Alberta6C.02Improved inhalation drug delivery of submicrometer aerosols through enhanced condensational growth: Numerical and experimental proof of concept studies.=P. WORTH LONGEST (1,2), Michael Hindle (2), and Geng Tian (1)1. Department of Mechanical Engineering, Virginia Commonwealth University 2. Department of Pharmaceutics, Virginia Commonwealth University 6C.03Treatment with aerosol PUR003, a novel cationic airway lining modulator, reduces influenza replication in vitro and significantly diminishes the severity of Influenza infection in swine and ferrets.WESLEY H. DEHAAN (1), David L. Hava (1), Lester C Griel (2), Jean Sung (1), Ashley Prasse (1), Mike Lipp (1), Rob Lambkin-Williams (3), Shobana Balasingam (3), and Robert Clarke (1)(1) Pulmatrix Inc, Lexington, MA, USA, (2) Penn State University, State College, PA, (3) Retroscreen Virology Ltd, London, England6C.04vDevelopment of Surface Engineered Low Cohesivity Fine Powders for Respiratory Drug Delivery using Dry Powder Inhalers.[M. K. MAZUMDER(1), M. N. Horenstein(1), P. K. Srirama(2), A. S. Biris(3), and R. Sharma(3) i(1) Boston University, (2) University of California Davis, and (3) University of Arkansas at Little Rock 6C.054B.079Exposure to Ultrafine Particles in California Residences.oSEEMA BHANGAR (1), Nasim A. Mullen (1), William W. Nazaroff (1), Nathan M. Kreisberg (2), Susanne V. Hering (2)K(1) University of California, Berkeley, (2) Aerosol Dynamics Inc., Berkeley4B.08nA New Portable Personal Exposure Monitor for Real-time Indoor and Outdoor Nano to Micro Particle Measurements.PJUERGEN SPIELVOGEL, Roland Hagler, Xiaoai Guo, Friedhelm Schneider, Markus Pesch$ Grimm Aerosol Technik GmbH & Co. KGHealth Related Aerosol I4C.013Aerosol Transmission of Influenza Virus in Ferrets.Fred Koster (1), YUNG-SUNG CHENG (1), Yue Zhou (1), Heather MacInnes (1), Colby Layton (1), Kristin Lowery (2), Steve Hofstadler (2), Heather Matthews (2), Donna Toleno (2)`(1) Lovelace Respiratory Research Institute, Albuquerque, NM (2) Ibis Biosciences, Carlsbad, CA 4C.02ZUse of Gelatin Filter and BioSampler in Detecting Airborne H5N1 Nucleotides and Allergens.%Yan Wu, Fangxia Shen and MAOSHENG YAOState Key Joint Laboratory of Environmental Simulation and Pollution Control, College of Environmental Sciences and Engineering, Peking University, Beijing 100871, China4C.03^In-vitro Selection of DNA Aptamers for Detecting the Asp f1 Allergen of Aspergillus fumigatus.Low, Swee Yang, PECCIA, JORDAN m Department of Chemical Engineering, Environmental Engineering Program, Yale University, New Haven, CT 06520 4C.04IParticle Size Distribution of Biological Material in Indoor Environments.JING QIAN (1), Denina Hospodsky (1), Hamid Rismani-Yazdi (1), Naomichi Yamamoto (1), William W. Nazaroff (2), Jordan Peccia (1) ;(1) Yale University, (2) University of California, Berkeley4C.05HDo Surgical Masks Reduce Release of Inf< luenza From Infected Individuals?>James McDevitt(1,2) , Patricia Fabian(1,2), Donald Milton(1,2)c(1) Harvard School of Public Health, Boston, MA, (2) University of Massachusetts Lowell, Lowell, MA4C.06Effect of Surface Tension of Artificial Mucus on the Size Distribution of Bioaerosol Droplets Generated During Simulated Coughing.FM A Hasan(1), G. Zayas(2), A J. Milne(1), M King(2) and C F. Lange(1) (1). Department of Mechanical engineering, University of Alberta, Edmonton, T6G2G8, Alberta, Canada (2). Pulmonary Research Group, University of Alberta, Edmonton, T6G 2V2, Alberta, Canada 4C.07=Effects of an Electrospray Process on Viability of MS2 Virus.4JAEHEE JUNG (1, 3), JUNGEUN LEE (2), SANGSOO KIM (1)(1) Korea Advanced Institute of Science Technology (KAIST) (2) Seoul National University (3) Korea Institute of Science Technology (KIST)4C.084Deposition and Clearance of Inhaled Ce-141 Aerosols.cJACOB MCDONALD (1), Waylon Weber (2), Philip Kuehl (3), Melanie Doyle-Eisele (4), Ray Guilmette (5)'Lovelace Respiratory Research InstituteAerosol Chemistry III4D.01KAliphatic Amines Efficiently Displace Ammonia in Ammonium Sulfate Clusters."BRYAN R. BZDEK, Murray V. Johnston? Department of Chemistry & Biochemistry, University of Delaware4D.02VThe Potential Role for Organic Salt Formation in the Growth of Newly Formed Particles.IKELLEY BARSANTI (1), Jim Smith (1), Brent Williams (2), Peter McMurry (2)_(1) National Center for Atmospheric Research, Boulder, (2) University of Minnesota, Minneapolis4D.03Adsorption-Type Heterogeneous Chemistry Modeled for Urban Plume Scenarios: Reactive Uptake of O3, NO2, and H2O by Soot Coated with Benzo[a]pyrene.4Marco Springmann, Daniel A. Knopf, NICOLE RIEMER (3)`(1) Stony Brook University, Stony Brook, (2) University of Illinois at Urbana-Champaign, Urbana 4D.04cFormation of Molecular Bromine from Deliquesced NaBr Aerosol in the Presence of Ozone and UV Light.mPAUL NISSENSON (1), Sherri W. Hunt (2), Lisa M. Wingen (3), Barbara J. Finlayson-Pitts (3), Donald Dabdub (1)(1) University of California, Irvine, Department of Mechanical and Aerospace Engineering (2) National Center for Environmental Research, United States Environmental Protection Agency (3) University of California, Irvine, Department of Chemistry4D.05^Chamber Study of Secondary Organic Aerosol Formation from Photooxidation of Isoprene and DMS.Tianyi Chen, Myoseon JangcDepartment of Environmental Engineering Sciences, University of Florida, Gainesville, Florida 326114D.06:Assessment of CMAQ-Predicted SOA Precursor Concentrations.)ANNMARIE G. CARLTON (1) and Adam Reff (2)(1) U.S. EPA - Office of Research and Development, Research Triangle Park, NC (2) U.S. EPA - Office of Air Quality Planning and Standards, Research Triangle Park, NC4D.07(Development of the Adjoint of ISORROPIA.2SHANNON CAPPS, Armistead Russell, Athanasios Nenes) Georgia Institute of Technology, Atlanta4D.08Simulating the Influence of Aerosol Mixing State on Optical and Cloud Nucleating Properties with a Particle-Resolved Aerosol Model.\RAHUL ZAVERI (1), James Barnard (1), Richard Easter (1), Nicole Riemer (2), Matthew West (2)a(1) Pacific Northwest National Laboratory, Richland, (2) University of Illinois, Urbana Champaign2Symposium: Nanomaterials for Energy Applications I4E.01$Nanomaterials for Energy Technology.MARKUS WINTERERqNanoparticle Process Technology and Center for Nanointegration Duisburg-Essen (CeNIDE), University Duisburg-Essen4E.03BIn-situ Carbon Coating of Flame Made Nano-particles for Batteries.0Sotiris E. Pratsinis Waser Oliver Robert Büchel ETH Zurich4E.04`Synthesis of Silicon Suboxide Nanoparticle and Its Application to Lithium-ion Secondary Battery."KWANGSU KIM (1), Taesung Kim (1,2)4E.05FPlasma Synthesis of Silicon and Germanium for Nanocrystal Solar Cells./Chin-Yi Liu, Zachary Holman, and UWE KORTSHAGENKMechanical Engineering Department, University of Minnesota, Minneapolis, MN4E.07rRecord Photoefficiency Achieved for Dye Sensitized Solar Cells Using Mesoporous Titania Layers Produced by Flames.*Saro Memarzadeh, Denis J. Phares, Hai Wang!University of Southern California4E.08LThe Effect of Surface Hydrogen on In-Air Oxidation of Silicon Nanoparticles.2Brandon J. Winters, Jason Holm, Jeffery T. Roberts;Urban Aerosol III/Carbonaceous Aerosols in the Atmosphere I4F.01wCoarse Particulate Matter (PM10-2.5) Concentrations and Inter- and Intra-Community Variability in the Los Angeles area.3KATHARINE MOORE, Vishal Verma, Constantinos Sioutas" University of Southern California4F.02tContribution of Tyre and Brake Wear Particles to PM10 Metal Concentrations and Oxidative Activity in Central London.<HRISHI V MITTAL, Ian S Mudway., Sean T Duggan, Frank J Kelly4 Environmental Research Group, King's College London4F.03oReal-Time Measurement of Coarse Particulate Matter Concentrations at Multiple Locations in Birmingham, Alabama.YJonathan Thornburg (1), Robert Vanderpool (2), Brett Grover (2), and Surender Kaushik (2)W(1) RTI International, Research Triangle Park (2) U.S. EPA NERL, Research Triangle Park4F.04AA Fugitive Dust Deposition Model for Near Field Particle Removal.(1) Particle Technology Laboratory, University of Minnesota (2) Institute of Energy and Environmental Technology e. V. (IUTA), Duisburg, Germany (3) BASF SE, Fine Particle Technology and Particle Characterization, Ludwigshafen, Germany6F.03-Micro-FTIR Study of Soot Surface Composition.EJEREMY CAIN (1), Paul Gassman (2), Hai Wang (1), Alexander laskin (2)n(1) University of Southern California, Los Angeles, CA (2) Pacific Northwest National Laboratory, Richland, WA6F.04MFast Detection of Biological Air Contaminants Using Immunobiological Methods.7WOLFGANG KOCH (1), Wilhelm Dunkhorst (1), Hubert Lödding (1), Katharina Schwarz (1), Katrin Schmitt (2), Carsten Bolwien (2), Gerd Sulz (2), Andreas Holländer (3), Thorsten Klockenbring (4), Stefan Barth (4), Björn Seidel (4), Wolfgang Hofbauer (5), Torsten Rennebarth (5), Anna Renzl (5), Peter Muranyi (6)(1) Fraunhofer ITEM, Hannover, Germany, (2) Fraunhofer IPM, Freiburg, Germany, (3) Fraunhofer IAP, Potsdam, Germany, (4) Fraunhofer IME, Aachen, Germany, (5) Fraunhofer IBP, Holzkirchen, Germany, (6) Fraunhofer IVV, Freising, Germany6F.05\Measuring the Aerosol Asymmetry Parameter g: Instrument Description and Initial Measurement.6F.06Reducing the Risk of Human Exposure and Environmental Contamination during Outdoor Aerosol Studies using a Compact Aerosol Test System (CATS).CHRISTOPHER BLISS (1), Diana Semler (1), Stephanie Nicol (1), Kurt Semler (1), Alan Traylor (1), Florian Rauscher (2), Robert McGhin (1)d(1) Dycor Technologies Ltd., Edmonton, Alberta, Canada (2) Rheinmetall Defence, Duesseldorf, Germany6F.07ZDevelopment of a Portable Aerosol Spectrometer (PAS) for Nanoaerosol Exposure Measurement.5CHAOLONG QI (1), Pramod Kulkarni (1), Da-Ren Chen (2)(1) Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health, Cincinnati, OH (2) Washington University in St.Louis, St. Louis, MO6F.08YTowards Recognition of Water-Soluble High-Molecular Weight Species in Particulate Matter.JOSEF BERANEK, Alena Kubatova, University of North Dakota, Grand Forks, ND Symposium: Aerosol Drug Delivery7A.01>Delivery Efficiency of Drug Particles to the Swiss Mouse Lung.(HUIJING FU, Jingjie Zhang and Daren Chen7A.02-Dry aerosol drug for tuberculosis treatment.nTatiyna Kotova (1), VICTOR BONDARENKO (2), Oxana Rybalchenko(3),Valeriy Dobritsa (4), Tatiyna Vinogradova (5)(1,3,4,5) State Research Center of Highly Pure Biopreparations (2) Gamaleya Research Institute for Epidemiology and Microbiology7A.03FAnticancer drug pulmonary delivery by mesoporous silica nanoparticles.gZuocheng Wang (1), Gediminas Mainelis (1), Oleh Taratula (2), Olga Garbuzenko (2), and Tamara Minko (2)(1) Rutgers University, Dept. Env. Sciences, 14 College Farm Rd., New Brunswick, NJ; (2) Rutgers University, Ernest Mario Sch< ool of Pharmacy, 160 Frelinghuysen Road, Piscataway, NJ. 7B.01Automated Determination of Ion Solvation Energies via Tandem Mobility-Mass Spectrometry of Multiply Charged, Electrospray-Generated Ionic Liquid Nanodrops.WJUAN FERNANDEZ GARCIA (1), Christopher J. Hogan Jr (1,2), Juan Fernandez de la Mora (1)>(1) Yale University, New Haven, CT, (2) SEADM, Boecillo, Spain7B.02>Thin Film Uniformity as a Function of Electrospray Conditions.@Eszter Bodnar (1), Pavel Kiselev (1), JOAN ROSELL-LLOMPART (1,2)(1) Department of Chemical Engineering, Universitat Rovira i Virgili, Tarragona, Spain, (2) ICREA (Catalan Institution of Research and Advanced Studies), Barcelona, Spain7B.03CVisualization of Electrified Liquid Menisci from Nanospray Sources.3Sergio Paredes-Egea (1), JOAN ROSELL-LLOMPART (1,2)7B.04?Fundamentals and Applications of the Electrospray: An Overview.Alessandro Gomez, WEIWEI DENG7B.05mApplication of a Soft X-ray Charger in Charge-Reduced Electrospray Mobility Analysis of Biological Particles.1LUIS MODESTO-LOPEZ, Eric Kettleson, Pratim BiswasOAerosol and Air Quality Research Laboratory, Washington University in St. Louis7B.06CMeasuring the Surface Tension of Single Molecule Polymer Nanodrops.KCARLOS LARRIBA (1), Christopher J. Hogan Jr (1) (2), Juan F. de la Mora (1)/(1) Yale University, (2) SEADM, Boecillo, SpainAerosol Physics7C.01oParticle Image Velocimetry Experiments of Transport and Dispersion of Air Pollutants in a Model Subway Station./JENNIFER RICHMOND-BRYANT (1), Ann E. Wittig (2)(1) U.S. Environmental Protection Agency, National Center for Environmental Assessment, Research Triangle Park, NC (2) Department of Civil Engineering, City College, City University of New York, New York, NY7C.021Drag Coefficient of a Sphere on the Flat Surface.<Chun-Nan Liu, CHIH-LIANG CHIEN, Chu-Chun Lo, Chuen-Jinn Tsai' National Chiao Tung University, Taiwan7C.03Determination of Volume, Mass-Mobility Diameter Scaling Exponent, and Particle Alignment of Silver Nanoparticle Agglomerates using Tandem Differential Mobility Analyzers.CWeon Gyu Shin (1), George W Mulholland (2), and David Y. H. Pui (1)Z(1) The University of Minnesota, Minneapolis (2) The University of Maryland, College Park 7C.04Characterization of Aerosols in the El Paso-Juarez Airshed using the TUV Model in Conjunction with Multi-filter Rotating Shadow Band Radiometers.KRosa M. Fitzgerald (1), Richard Medina (1), James Slusser (2), Tom Gill (3)(1) Physics Department, University of Texas at El Paso, El Paso, TX 79968 (2) Natural Resource Ecology Laboratory, Department 1499, Colorado State University, Fort Collins, CO 80523-1499 (3) Geology Department, University of Texas at El Paso, El Paso, TX 799687C.05:A Web-Based Aerosol Calculator for Research and Education.Scot T. MartinHarvard University7C.06bLaboratory Studies of Light Scattering from Representative Components of Atmospheric Mineral Dust.5BRIAN MELAND, M.A. Young, V.H. Grassian, P.D. Kleiber University of Iowa7C.07RCan IR Spectral Line Shapes Be Used to Infer Aerosol Particle Shape Distributions?EPaula Hudson (1), V.H. Grassian (2), M.A. Young (2), P.D. KLEIBER (2)E(1) California State University at Fullerton, (2) University of Iowa7C.08`Spray Current and Droplet Size in a Dual-capillary Electrospray for the Cases of Inner-driving.FAN MEI, Da-Ren Chen7C.09Nucleation rates for Ethanol/Water Mixtures in Supersonic Laval Nozzle: A New Analytical method for Pressure Trace Measurement.KShinobu Tanimura (1), Uta M. Dieregsweiler (2), BARBARA E. WYSLOUZIL (1, 2)B(1) The Ohio State University, (2) Worcester Polytechnic Institute7C.10:Homogeneous Nucleation Rates of n-butanol/deuterium oxide.QKELLEY DISTEL (1), Soenke Seifert (2), Randall Winans (2), Barbara Wyslouzil (1) @JARKKO HUKKAM KI (1), Risto Niiranen (1), Jorma Jokiniemi (1,2)(1) University of Kuopio, Department of Environmental Science, Fine Particle and Aerosol Technology Laboratory, (2) VTT Technical Research Centre of Finland, Fine Particles5B.14qMorphology and Performance of TiO2 Film for Dye-sensitized Solar Cells Fabricated by Nano-electrospray Technique. YI-HSAUN LEE (1), Daren Chen (2)N(1) Washington University in St. Louis, (2) Washington University in St. Louis5B.155Stability of Nanopowder Agglomerates in Orifice Flow.{Burkhard Stahlmecke (1) Sandra Wagener (1, 2) CHRISTOF ASBACH (1) Heinz Kaminski (1) Heinz Fissan (1) Thomas Kuhlbusch (1) |(1) Institute of Energy and Environmental Technology - IUTA e.V., Duisburg, Germany, (2) Humboldt University Berlin, Germany5B.16FEuropium Enrichment on Surface of Flame-Synthesized Y2O3:Eu Particles.Hoon Yim and BING GUO5B.17;Metal Nanoparticle Synthesis in a Hot Reducing Jet Reactor.&William Scharmach, and Mark T. Swihart! The University at Buffalo (SUNY)5C.01KNMR studies of Secondary Organic Aerosol Coating on Acidic Sulfate Aerosol.OMyoseon Jang (1), Marc ter Horst (2), Gunnar Boysen (2), Leonard B. Collins (2)h(1) University of Florida, Gainesville, (2) The University of North Carolina at Chaple Hill, Chapel Hill5C.02aRole of seed acidity in secondary organic aerosol formation from isoprene low-NOx photooxidation.Jason D. Surratt, ARTHUR W. H. CHAN, Scott P. Hersey, Man N. Chan, Nathan C. Eddingsas, Alan J. Kwan, Puneet S. Chhabra, Kathryn E. Kautzman, John D. Crounse, Paul O. Wennberg, Richard C. Flagan, John H. Seinfeld1 California Institute of Technology, Pasadena, CA5C.03wProducts and Mechanism of Secondary Organic Aerosol Formation from the Reaction of OH Radicals with 2-Methyl-1-Alkenes."AIKO MATSUNAGA and Paul J. Ziemann$ University of California, Riverside5C.04ISOA Production from Intermediate Volatility Organic Compounds: n-Alkanes.=ALBERT PRESTO, Marissa Miracolo, Neil Donahue, Allen Robinson5C.06qSecondary Organic Aerosol Formation from m-xylene Photooxidation: Evaluation of the Phenolic SOA Formation Route.^SHUNSUKE NAKAO, Li Qi, Quentin G. J. Malloy, Christopher Clark, Ping Tang, David R. Cocker IIIUniversity of California, Riverside, Bourns College of Engineering  Center for Environmental Research and Technology (CE-CERT), Department of Chemical and Environmental Engineering5C.07QSecondary Organic Aerosol Formation from Photochemical Aging of Aircraft Exhaust.iALLEN ROBINSON, Chris Hennigan, Marissa Miracolo, Manish Ranjan, Ngoc Nguyen, Albert Presto, Neil Donahue5C.08The Mechanistic Kinetics of Primary Ozonide Decomposition: Constraining Ozonolysis Product Distributions with Temperature Programmed Reaction Spectroscopy and Computational Chemistry.!SCOTT A. EPSTEIN, Neil M. Donahue5C.09\Time, Concentration and Exposure: Lessons Learned from Aerosol Flow Tube Uptake Experiments."Lindsay Renbaum and GEOFFREY SMITH University of Georgia5C.10VAlkylnitrate Formation from the Radical-initiated Oxidation of Model Organic Aerosols.5C.11TModeling SOA Formation from Toluene Oxidation in the Presence of Inorganic Aerosols.GANG CAO (1), Myoseon Jang (2)J(1) University of North Carolina at Chapel Hill, (2) University of Florida5C.12RFlow reactor studies of the oxidation products of PAHs under different conditions.BRebeka Fisseha Derseh, Haewoo Jeong, Josef Beranek, Alena Kubatova3University of North Dakota, Department of Chemistry5C.134Aldehydes Photolysis with OH Radical Under High NOx.)HEBER CHACON, Albert Presto, Neil Donahue5C.14VDetection of oxidation products from PAH/OH radical reactions in atmospheric aerosols.SJIYI LEE (1), Yu Cheng (1), Seung-Muk Yi (2), Yong Pyo Kim (3), Douglas A. Lane (1)(1) Air Quality Research Division, Environment Canada (2) School of Public Health, Seoul National University (3) Environmental Engineering and Science, Ewha Womans University 5C.15Chemical Transport Mo< del Simulations of the Effects of Heterogeneous Oxidization on Motor Vehicle Molecular Markers Concentrations in the Eastern United States.ANIRBAN ROY(1), Kristina M Wagstrom (1), Emily A Weitkamp (1), Chris Hennigan (1), Spyros N Pandis (1,2), Allen L Robinson (1) D(1) Carnegie Mellon University, USA (2) University of Patras, Greece5C.16kEffect of Aerosol Generation Method on Thermodynamic and Kinetic Properties of Di-carboxylic Acid Aerosols.5C.17]Chemical Composition of Gas- and Aerosol-Phase Products of the Photooxidation of Naphthalene.K. E. KAUTZMAN (1), J. D. Surratt (1), A. W. H.Chan (1), P. S. Chhabra (1), M. N. Chan (1), S. Hersey (1), J. D. Crounse (1), A. J. Kwan (1), A. Kürten (1,2), N.F. Dalleska (1), P. O. Wennberg (1), R. C. Flagan (1), and J. H. Seinfeld (1)(1) California Institute of Technology (2) current affiliation: Institute for Atmospheric and Environmental Sciences, Goethe-University Frankfurt am Main 5C.18|Effects of Organic Composition and Humidity on Secondary Organic Aerosol Formation in the Ozonolysis of Monoterpene Mixture.THEE-JOO CHO (1), Jun-Ho Park (2), Wan-Kuen Jo (1), Woo-Sik Jeong (3), Ho-Jin Lim (1)(1) Kyungpook National University, Daegu, Republic of Korea (2) Korea Institute of Construction Technology, Ilsan, Republic of Korea (3) Inje University, Gimhae, Republic of Korea'Carbonaceous Aerosols in the Atmosphere5D.01TCritical condensed mass for activation of black carbon as cloud condensation nuclei.4MIKINORI KUWATA(1*), YUTAKA KONDO, NOBUYUKI TAKEGAWA: the University of Tokyo * Currently at Harvard University5D.02Chemical and Photoinduced Aging Processes in Secondary Organic Aerosol Derived from Oxidation of Isoprene and Selected Monoterpenes.SERGEY A. NIZKORODOV (1), David L. Bones (1), Stephen A. Mang (1), Dana K. Henricksen (1), Adam P. Bateman(1), Tran B. Nguyen (1), Michael Gonsior (1), William J. Cooper (1), Julia Laskin (2), Alexander Laskin (2)O(1) University of California, Irvine, (2) Pacific Northwest National Laboratory5D.03aAerosol Light Absorption, Black Carbon, and Elemental Carbon at the Fresno Supersite, California.0JOHN G. WATSON, Judith C. Chow, L.W. Antony Chen% Desert Research Institute, Reno, NV5D.04PCarbonaceous Aerosol Sampling Artifacts in IMPROVE and Other Long-Term Networks.0JUDITH C. CHOW, John G. Watson, L.W. Antony Chen) Desert Research Institute, Reno, NV USA5D.05Method for the Determination of the Organic Mass to Organic Carbon Ratio in Diesel Engine Emissions Aerosol: Underground Mine Application.EMANUELE CAUDAAThe National Institute for Occupational Safety and Health, CDC 5D.06Influence of Water Vapour during Secondary Organic Aerosol Formation by Alpha-pinene Ozonolysis on Chemical Composition, Hygroscopic Properties and Volatile Fractions.LAURENT POULAIN (1), Zhijun Wu (1), Markus M. Petters (2), Eva Hallbauer (1), Heike Wex (1), Birgit Wehner (1), Andreas Massling (3), Sonia M. Kreidenweis (2), Frank Stratmann (1)(1) Leibniz Institute for Tropospheric Research, Leipzig, Germany, (2) Department of Atmospheric Science, Colorado State University, Fort Collins, CO, USA, (3) National Environmental Research Institute, Aarhus University, Roskilde, Denmark 5D.07?Contribution of organosulfur compounds to organic aerosol mass.(MICHAEL P. TOLOCKA(1), Barbara Turpin(2)E(1) Louisiana State University and A&M College (2) Rutgers University5D.08:Aerosol Production in a Mixed Deciduous/Coniferous Forest.JONATHAN SLADE (1), Levi Mielke (1), Marjan Alaghmand (1), Isabella Zhang (1), Steven Bertman (2), Mary Anne Carroll (3), R. Graham Cooks (1), Paul B. Shepson (1)y(1) Purdue University, West Lafayette, (2) Western Michigan University, Kalamazoo, (3) University of Michigan, Anne Arbor5D.09]Analysis of Chemical Composition of Atmospheric Aerosols Above a South East Asian Rainforest.hNIALL ROBINSON (1), James Allan (2), Jacqueline Hamilton (3), Qi Chen (4), Hugh Coe (1), Scot Martin (4)~(1) The University of Manchester (2) National Centre for Atmospheric Science, UK (3) University of York (4) Harvard University5D.10`Secondary Organic Aerosol Formation from the Photooxidation of Polyaromatic Hydrocarbons (PAHs)._MICHAEL LEWANDOWSKI (1), Tadeusz E. Kleindienst (1), John H. Offenberg (1), Mohammed Jaoui (2).(1) U.S. Environmental Protection Agency, National Exposure Research Laboratory, RTP, NC (2) Alion Science and Technology, Inc., RTP, NC5D.11JDetection and characterization of particle-bound reactive radical species. Jelica Pavlovic, Philip K. HopkeF Center for Air Resources Engineering and Science, Clarkson University5D.12fPhysical Nanostructure by HRTEM and Chemical Composition by XPS: Fingerprinting Carbonaceous Aerosols.4RANDY VANDER WAL (1) Vicky Bryg (2) Michael Hays (3)l(1) Penn State University (2) The NSCER c/o NASA-Glenn (3) The U.S. EPA, National Risk Management Laboratory5D.13vCharacterization of SOA Formed from the Photooxidation of 2-methyl-3-buten-2-ol and Its Implication for Ambient PM2.5.yM. Jaoui (1), T. Gerald (1), E. Corse (1), T.E. Kleindienst (2), J. H. Offenberg (2), M. Lewandowski (2), E.O. Edney (2).p(1) Alion Science and Technology, Inc., Durham, NC, (2) National Exposure Research Laboratory, US-EPA, RTP, NC. 5D.14SPhysico-chemical characteristics of PM2.5 released from coal utilization industry.Puja Khare, BP BaruahDNorth East Indtitute of Science and Technology, Jorhat, Assam, India5D.15IComposition and Yield of Oligomers in Biogenic Secondary Organic Aerosol.WILEY HALL, Murray Johnston University of Delaware5D.16|Elemental Composition of Chamber Secondary Organic Aerosol using a High-Resolution Time-of-Flight Aerosol Mass Spectrometer.PUNEET S. CHHABRA (1), Arthur W. H. Chan (1), Armin Sorooshian (2), Scott P. Hersey (1), Jason D. Surratt (1), Richard C. Flagan (1), John H. Seinfeld (1)S(1) California Institute of Technology, Pasadena, (2) University of Arizona, Tucson5D.18;Do Semi-volatile Primary and Secondary Organic Aerosol Mix?aAKUA ASA-AWUKU (1,2), Marissa Miracolo (1), Jesse Kroll (3), Allen Robinson (1), Neil Donahue (1)\(1) Carnegie Mellon University, (2), University of California  Riverside (3) Aerodyne Inc5D.20SOH Radical Aging of Organic Aerosol and Vapors formed from alpha-Pinene Ozonolysis.KAYTLIN M HENRY, Neil M Donahue5D.21WThe Effect of Hydrogen Peroxide as an OH Radical Scavenger for alpha-Pinene Ozonolysis. KAYTLIN M HENRY, Neil M Donahue 5D.22~Reexamining secondary organic aerosol formation from isoprene high-NOx photooxidation: Oxidation of first-generation products.ARTHUR W. H. CHAN, Jason D. Surratt, Puneet S. Chhabra, Man N. Chan, Kathryn E. Kautzman, Alan J. Kwan, Nathan C. Eddingsas, Scott P. Hersey, Paul O. Wennberg, Richard C. Flagan, John H. Seinfeld 5D.23UJONATHAN M. RICHARDSON, John C. Aldridge, Adam B. Milstein, and Joseph J. Lacirignola MIT Lincoln Laboratory7F.14Single-particle aerosol mass spectrometry (SPAMS) for high-throughput and rapid analysis of biological aerosols and single cells.MATTHIAS FRANK (1), Kristl Adams (1), Michael Bogan (2), Keith Coffee(1), George Farquar(1), David Fergenson (3), Eric Gard (1), Audrey N. Martin (1), Vincent Riot (1), Paul Steele (1), Herb Tobias (4), Bruce Woods (1)(1) Lawrence Livermore National Laboratory (2) Stanford Linear Acccelerator Center (3) Livermore Instruments (4) Cornell University7F.15Development of a Representative Background Aerosol Challenge Test Methodology for the Evaluation of High Time Resolution Biological Aerosol Detection Systems.SHANNA RATNESAR-SHUMATE, Gerad House, Kelly Brinkley, Christopher Bare, Neal Baker, Rachel Quizon, Jason Quizon, Alex Proescher, Jerome Gilberry, Michael Wagner, Eric Van Gieson, Joshua L. Santarpia7F.16+Low-Pressure-Drop Ceramic HEPA/ULPA Medium.WFred Tepper (1), Leonid Kaledin (1), Praveen Jana (2), Chang Yu Wu (3), JOE WANDER (4) }(1) Argonide Corporation (2) Ahlstrom Filtration LLC (3) University of Flo< rida (4) Air Force Research Laboratory, Tyndall AFB7F.17?Deposition of Bacillus Spores on Zero-Volume Airlock Materials.BRIAN HEIMBUCH (1), William Wallace (1), Erno Sajo (2), Bruce Nielsen (3), Kimberly Kinney (1), Jeffery Owens (3), Joe Wander (3)(1) Applied Research Associates, Tyndall Air Force Base (2) Louisiana State University (3) Air Force Research Laboratory, Tyndall Air Force Base7F.18=Destruction of Spores in a Bench Scale Landfill Flare System.#DANA WILLIAMS (1), Jacky Rosati (2)(1) University of North Carolina, Chapel Hill, NC 27599 (2) US EPA National Homeland Security Research Center, Research Triangle Park, NC 277117F.19]Effect of Atmospheric Spray Freeze Drying Process Parameters on Particle Physical Properties.;Matthew Ferriter, Mark Ketner, Vince Sullivan, Ajit D'Souza BD Technologies7F.208Bacterial Disinfection of HVAC Filters Using Microwaves.CKYLE ULMER (1), Myung-Heui Woo (1), Yu-Mei Hsu (2), Chang-Yu Wu (1)w(1) University of Florida, Department of Environmental Engineering Sciences (2) Wood Buffalo Environmental Association 7F.21>Inactivation of Airborne Microbes using Microwave Irradiation.Yan Wu and MAOSHENG YAO7F.22QEffectiveness of Field Decontamination Methods for a Biological Detection System.JAMES H. LOHAUS, JR. (1) Diana D. Semler (2) Kurt A. Semler (2) Adam J. Lloyd (1) Pilar J. Castaneda (1) Darrin K. Ott (1) Jay A. Vietas (1)A(1) USAF School of Aerospace Medicine (2) Dycor Technologies Ltd.7F.23eHygroscopic Property and Formation of Active Chlorine Oxidants in Saline-Oxone Decontaminant Aerosol.aJAEYOUN JANG (1), Myoseon Jang (1), Carrie A. Delcomyn (2), Michael V. Henley (3), John Hearn (2)(1) University of Florida, (2) Applied Research Associates, Inc. (3) Air Force Research Laboratory, Airbase Technologies DivisionSource Apportionment7G.01Comparison of Positive Matrix Factorization Results based on Time-Resolved Measurements from a Fixed Location versus from a Mobile Lab in Motion.@GANG LU(1), Maygan McGuire(2), Cristian Mihele(1), Jeff Brook(1)(1) Air Quality Reseach Division, Environment Canada, Toronto (2) Department of Chemical Engineering, Universitu of Toronto, Toronto7G.02;Primary and secondary organic components in marine aerosol.3MARIA CRISTINA FACCHINI (1), and C.D. O "!Dowd (2) (1) Institute of Atmospheric Sciences and Climate, CNR, Bologna Italy (2) School of Physics and Centre for Climate and Air Pollution Studies, Environmental Change Institute, National University of Ireland, Galway. 7G.03mComprehensive Aerosol Characterization with a Wide Range Aerosol Spectrometer on the Frohnau Tower in Berlin.8JUERGEN SPIELVOGEL, Xiaoai Guo, Markus Pesch, Hans Grimm7G.04KSource Apportionment Data for Aircraft PM Emissions at Commercial Airports.*PREM LOBO, Donald Hagen, Philip Whitefield. Missouri University of Science and Technology7G.05Summary of In-Use PM Measurements with UCR "!s Mobile Federal Reference Laboratory Covering Several Heavy Duty Diesel Engines with and without DPF Controls.DKENT C. JOHNSON, Thomas D. Durbin, Heejung Jung, David R. Cocker III#University of California, Riverside7G.06yTime Series Study of PM2.5 Source Apportionment for Use in Health Assessment in Seven California Counties from 2001-2005._Zohir Chowdhury (1), Ramtin Anousheh (2), Rachael Broadwin (3), Brian Malig (3), Bart Ostro (3)A1 Environmental Health, Graduate School of Public Health, San Diego State University, San Diego, CA 2 Epidemiology and Biostatistics, Graduate School of Public Health, San Diego State University, San Diego, CA 3 Air Pollution Epidemiology Section, California Office of Environmental Health Hazard Assessment, Oakland, CA 7G.07BComparison of Secondary Organic Carbon (SOC) Estimates in Atlanta.JORGE PACHON Ted Russell 7G.08]Source apportionment of PM2.5 and PM10 using a positive matrix factorization in Seoul, Korea.3Jong-Bae Heo, Bo-Ra Choi, Kye-Sun Kim, Seung-Muk YiW Department of Environmental Health, School of Public Health, Seoul National University7G.09[Size-resolved source apportionment of ambient aerosol in Northeastern Asia during ACE-Asia.cIntercomparison of measurement methods for EC and BC at the summit of Taishan, China, in June 2006.jYuichi Komazaki (1), Yugo Kanaya (1), Pakpong Pochanart (1), Yu Liu (3), Hajime Akimoto (2), Zifa Wang (3)(1) Japan Agency for Marine-Earth Science and Technology (JAMSTEC), Yokohama, Japan, (2) Acid Deposition and Oxidant Research Center (ADORC), Niigata, Japan, (3) Institute of Atmospheric Physics (IAP), Chinese Academy of Sciences (CAS), Beijing, China5D.40=Measuring the Absorption Enhancement of Black Carbon Aerosol.NPATRICK B. HILLYARD (1), Anthony W. Strawa (2), and Thomas W. Kirchstetter (3)u(1) Bay Area Environmental Research Institute (2) NASA Ames Research Center (3) Lawrence Berkeley National Laboratory5D.41|Primary and Secondary Precursor Contributions to Organic Aerosol in the SEARCH Network during the Spring and Summer of 2005.TADEUSZ KLEINDIENST (1), Michael Lewandowski (1), John Offenberg (1), Edward Edney (1), Mohammed Jaoui (2), Mei Zheng (3), Xiang Ding (3), Liping Yu (3)w(1) U.S. EPA, Research Triangle Park (2) Alion Science and Technology, Research Triangle Park (3) Georgia Tech, Atlanta5D.42Continental Air Mass Source Contributions to High Organosulfate Functional Groups in Submicron Particles in the Arctic Region during ICEALOT 2008.AMANDA A. FROSSARD (1), Patrick M. Shaw (1), Lynn M. Russell (1), Jesse H. Kroll (2), Patricia K. Quinn (3), and Tim S. Bates (3) (1) Scripps Institution of Oceanography, UCSD (2) Department of Civil Engineering, MIT (3) Pacific Marine Environmental Laboratory, NOAA 5D.43Alkane, Organic Hydroxyl, and Carboxylic Acid Groups Correlated with Isoprene and Terpene Concentrations in a Mid-Mountain Forest at Whistler, BC.RACHEL E. SCHWARTZ (1) L.M. Russell (1), A. Vlasenko (2), S.J Sjostedt (2), J.G. Slowik (2), J.P.D. Abbatt (2), S.M. Li (3), J. Liggio (3), D. Toom-Sauntry (3), A.M. Macdonald (3), and W.R. Leaitch (3) (1) Scripps Institution of Oceanography, University of California San Diego (2) Department of Chemistry, University of Toronto (3) Science and Technology Branch, Environment Canada 5D.44:VOC Outgassing from Baked and Unbaked Ventilation Filters.$Zhili Zuo, Jing Wang, David Y.H. Pui5D.45Determination of Polycyclic Aromatic Hydrocarbons, n-Alkanes, Hopanes and Steranes in PM2.5 in Urban and Rural Sites of Canada UsingThermal Desorption GC-MS.(LUYI DING, Fu Ke, Daniel Wang , Tom DannB Air Quality Research Division, Environment Canada, Ottawa, Canada5D.46\Comparison of Molecular-Level and Total Organic Aerosol Measurements in Southern California.BRENT J. WILLIAMS (1,2,3), Allen H. Goldstein (1), Nathan M. Kreisberg (4), Susanne V. Hering (4), Kenneth S. Docherty (5), Ingrid M. Ulbrich (5), Jose L. Jimenez (5)(1) University of California, Berkeley, (2) University of Minnesota, Minneapolis, (3) Aerodyne Research Inc., (4) Aerosol Dynamics Inc., (5) University of Colorado, Boulder5D.47NSize Distribution of HULIS in Ambient Aerosols at a Rural Site in South China.FPENG LIN (1), Xiao-Feng Huang (2), Ling-Yan He (2), Jian Zhen Yu (1,3)(1)Atmospheric, Marine and Coastal Environment Program, Hong Kong University of Science and Technology, Clear Water Bay, Kowloon, Hong Kong, China (2) Laboratory for Environmental and Urban Sciences, Shenzhen Graduate School, Peking University, Shenzhen, Guangdong, China (3) Department of Chemistry, Hong Kong University of Science and Technology, Clear Water Bay, Kowloon, Hong Kong, China 5D.48BOverview of PM1 Composition and Sources of Organic Mass in Europe.Andre S.H. Prevot (1), Eiko Nemitz (2), Valentin Lanz (1), Peter DeCarlo (1), James Allan (3), Urs Baltensperger (2), Harald Berresheim (5), Manjula Canagaratna (4), Darius Ceburnis (5), Micha< el Cubison (9), Manuel Dall "!Osto (5), Chiara di Marco (2), Neil Donahue (10), Mikael Ehn (6), Axel Eriksson (7), Risto Hillamo (8), Jose-Luis Jimenez (9), Lea Hildebrandt (10), Heiki Junninen (6), Astrid Kiendler-Scharr (11), Evangelia Kostenidou (12), Markku Kulmala (6)Amewu Mensah (11), Claudia Mohr (1), Colin O "!Dowd (5), Amber Ortega (9), Jurgita Ovadnevaite (5), Spyros Pandis (10,12), Laurent Poulain (13), Tomi Raatikainen (14), Samara Carbone (8), Sanna Saarikoski (9), Karine Sellegri (15), Donna Sueper (4,9), Erik Swietlicki (7), Petri Tiitta (14), Ingrid Ulbrich (9), Doug Worsnop (4) M(1) Paul Scherrer Institut, Switzerland, (2) Centre for Ecology & Hydrology, Edinburgh, (3) University of Manchester, England (4) Aerodyne Research, Inc., (5) NUI Galway, Ireland, (6) University of Helsinki, Finland, (7) Lund University, Sweden, (8) Finnish Meteorological Insitute, Helsinki, (9) University of Colorado, (10) Carnegie Mellon University, Pittsburgh, (11) Forschungszentrum Jülich, Germany, (12) University of Patras, Greece, (13) Leibniz Insitute for Tropospheric Research, Leipzig, Germany, (14) University of Kuopio, Finland, (15) University of Clermont Ferrand, France 5D.49eMicroscopic Characterization of Carbonaceous Aerosol Particles Aging in the Outflow from Mexico City.RYAN C. MOFFET (1), Tobias R. Henn (2), Alexei V. Tivanski (1), Rebecca J. Hopkins (1), Yury Desyaterik (3), Jerome Fast (3), James Barnard (3), V. Shutthanandan (3), Alexander Laskin (3), Mary K. Gilles (1)p(1) Lawrence Berkeley National Laboratory, (2) University of Wurzburg, (3) Pacific Northwest National LaboratoryAerosol Exposure5E.01RPersonal Exposure to Fine Particles from Secondhand Smoke  Scripted Activities.eVIVIANA ACEVEDO-BOLTON, Wayne R. Ott, Kai-Chung Cheng, Ruoting Jiang, Neil Klepeis, Lynn M. HildemannStanford University5E.02tPotential Consumer Exposure to Nanoparticles and their Agglomerates due to the Use of Nanotechnology-based Products.FYevgen Nazarenko (1), Paul J. Lioy (2,3), and GEDIMINAS MAINELIS (1,2)(1) Rutgers University, Dept. Env. Sciences, 14 College Farm Rd., New Brunswick, NJ; (2) Environmental and Occupational Health Sciences Institute, 170 Frelinghuysen Road, Piscataway, NJ; (3) UMDNJ-Robert Wood Johnson Medical School, 675 Hoes Lane, Piscataway, NJ 5E.03YCharge Effects on Submicrometer and Micrometer Aerosol Deposition in Human Nasal Airways.$JINXIANG XI (1) P. Worth Longest (2)JUN XU (1) , Nicholas Meskhidze (1), Yang Zhang (1), Brett Gantt (1), Steve Ghan (2), and Athanasios Nenes (3), Xiaohong Liu (2), Richard Easter (2), Rahul Zaveri (2)(1) North Carolina State University, Raleigh (2) Pacific Northwest National Laboratory, Richland (3) Georgia Institute of Technology, Atlanta7H.15jCloud-Forming Potential of Atmospheric Particles at the BEACHON Southern Rocky Mountains Site in Colorado..TIMOTHY VANREKEN, George Mwaniki, Logan Callen7H.16Three Types of Oxygenated Groups in Organic Aerosol Measured in the Southeast Pacific Ocean on board the R/V Ronald Brown during VOCALS-REx 2008.SL.N. HAWKINS(1), L.M. Russell(1), D. S. Covert(2), P.K. Quinn(3), and T.S. Bates(3)(1) Scripps Institution of Oceanography, University of California, San Diego, (2) University of Washington, (3) NOAA, Pacific Marine Environmental Laboratory7H.17?Aerosol-cloud drop concentration closure for entraining clouds.Ricardo Morales (1), Donifan Barahona (1), Athanasios Nenes (1), Roya Bahreini (2), William C. Conant (3), Tracy Rissman (4), Vanuntida Varutbangkal (5), Richard C. Flagan (6), John H. Seinfeld (6), Gintautas Buzorious (7), Hafhdi Jonsson (7) (1) Georgia Institute of Technology (2) NOAA, ETL (3) University of Arizona (4) DuPont (5) The Boston Consulting Group (Thailand) (6) California Institute of Technology (7) Naval Postgraduate School 7H.181Reduction of Snow Surface Albedo by Black Carbon. HADLEY ODELLE L, Kirchstetter TW3 Lawrence Berkeley National Laboratory, Berkeley CA7H.19VThe effect of wildfires on atmospheric heating rates as measured by unmanned aircraft.FCraig Corrigan (1), MV Ramana (1), Odelle Hadley (2), V Ramanathan (1)o(1) Scripps Institution of Oceanography, San Diego, CA; (2) Lawrence Berkeley National Laboratory, Berkeley, CA7H.20BEffects of Aerosol Composition and Temperature on Surface Tension..ETHAN AUMANN, Lynn Hildemann, Azadeh Tabazadeh Stanford University7H.21BThe effects of splash artifacts on aerosol measurements in clouds.RLUCAS W. CRAIG (1), Arash Moharreri (1), Suresh Dhaniyala (1), David C. Rogers (2):(1) Clarkson University, Potsdam, (2) NCAR/RAF, Broomfield7H.22RCCN Activity of Regional Dust Samples and the Importance of Adsorption Activation.@PRASHANT KUMAR (1), Irina N. Sokolik (2), Athanasios Nenes (1,2)(1) School of Chemical & Biomolecular Engineering, Georgia Institute of Technology, Atlanta. GA, (2) School of Earth & Atmospheric Sciences, Georgia Institute of Technology, Atlanta. GA7H.23qEffect of aerosol mixing state on CCN activity --- Insights based on particle-resolved aerosol model simulations.[JOSEPH CHING (1), Nicole Riemer (1), Matthew West (1), Rahul Zaveri (2), Richard Easter (2)r(1) University of Illinois at Urbana-Champaign, Urbana, IL (2) Pacific Northwest National Laboratory, Richland, WA7H.24FCloud Water Chemistry of Samples Collected over the Southeast Pacific.@KATHERINE B. BEEM, Taehyoung Lee, Yi Li, Jeffrey L. Collett, Jr.+Colorado State University, Fort Collins, CO7H.25fComparison of Two Cloud Condensation Nuclei Counters: An Analysis of Ground and Airborne Measurements."GOKHAN SEVER (1), David Delene (2)>(1) University of North Dakota, (2) University of North Dakota7H.26kSeasonal Changes in Organic Acidic and Other Functional Group Concentrations from Barrow, Alaska 2008-2009.pPATRICK M. SHAW (1), Lynn M. Russell (1), Dan Lubin (1), Anne Jefferson (2), Jason Johns (3), Patricia Quinn (4)z(1) Scripps Institution of Oceanography, University of California San Diego (2) NOAA CIRES (3) NOAA ESRL GMD (4) NOAA PMEL7H.275Multispectral CAPS-based Particle Extinction Monitor.MANDREW FREEDMAN (1), Paul Kebabian (1), Paola Massoli (2), Timothy Onasch (1)t(1) Aerodyne Research Inc., Billerica, MA (2) Department of Chemistry, Boston College, Chestnut Hill, Newton, MA IHealth Related Aerosol7I.01uEffect of Combustion Condition on Cytotoxic and Inflammatory Activity of Residential Wood Combustion (RWC) Particles.Pasi I. Jalava (1), Raimo O. Salonen (1), Kati Hytönen (2), Arto S. Pennanen (1), Mikko S. Happo (1,2), Piia Markkanen (1), Jarkko Tissari (2), Anna Frey (3), Risto Hillamo (3) Jorma Jokiniemi (2, 4), Maija-Riitta Hirvonen (1,2)(1) National Institute for Health and Welfare, Kuopio, Finland (2) University of Kuopio, Finland (3) Finnish Meteorological Institute, Helsinki, Finland (4) VTT Technical Research Centre of Finland7I.02sChemical and Physical Evolution of Aerosols during Taconite Mining and Beneficiation, Mesabi Iron Range, Minnesota.MTAMARA DIEDRICH (1), Devon Brecke (1), Megan Schreiber (1), Virgil Marple (2)(1) Natural Resources Research Institute, University of Minnesota Duluth, (2) Mechanical Engineering, University of Minnesota Twin Cities7I.03iTransport and Deposition of Submicrometer and Micrometer Aerosols in a 5-Year-Old-Boy Nasal Airway Model.3JINXIANG XI (1) JongWon Kim (1) Ariel Berlinski (2)^(1) University of Arkansas, Littl< e Rock, AR (2) Arkankas Children's Hospital, Little Rock, AR7I.04iAirflow and Aerosol Deposition in the Upper 10 Generations of Human Respiratory Tract With TB Cartilages.5JINXIANG XI (1) JongWon Kim (1) Paula J. Anderson (2)(1) University of Arkansas, Little Rock, AR (2) Pulmonary and Critical Care, University of Arkansas for Medical Sciences, Little Rock, AR 7I.05dMeasurement of the Lung Deposition of Different Particle Bound Chemical Compounds in Human Subjects.,CONOR MCGRATH, Sharon Merrill, Colin DickensY British American Tobacco, Group R&D Centre, Regents Park Road, Southampton, SO15 8TL, UK7I.06>Fiber Transport and Deposition in Human Tracheobronchial Tree.BL. TIAN,1 G. Ahmadi,2,4 Philip K. Hopke,3,4 and Yung-Sung Cheng,5 1Energy and Environmental Environment, 2Aeronautical and Mechanical Engineering Department, 3Chemical Engineering Department, 4Center for Air Resources Engineering and Science, Clarkson University, Potsdam, NY 13699, 5Lovelace Respiratory Research Institute, Albuquerque, NM 7I.07\Numerical Simulation of Aerosol Flow using Horsfield Geometric Model of Human Lung Airways.\Shahab Khorasanizade (1), Mehrzad Shams (2), Goodarz Ahmadi (3), Milad Mansoori Borujeni (4)(1) K.N.Toosi University of Tech., Tehran, Iran (2) K.N.Toosi University of Tech., Tehran, Iran (3) Clarkson University, Potsdam (4) Ms. in Mechanical Engineering7I.08QDeposition of Inhaled Ultrafine Aerosols in Replicas of Nasal Airways of Infants.b*W. H. Finlay, L. GOLSHAHI, M. Noga, J. Olfert, and R. Thompson *Authors are listed alphabetically University of Alberta 7I.09VMultiscale large-eddy simulation of particle deposition in the CT-based human airways.5ANDREW LAMBERT, Ching-Long Lin, Patrick O'Shaughnessy% University of Iowa, Iowa City, Iowa 7I.109Nanoparticle emissions during liquid flame spray process.H MERI KAARLE (1), Koivisto Joonas (2), Tuomi Timo (2), Jrvel Merja (2), Mkel Jyrki (3), Aromaa Mikko (3), Leppnen S (3), Korhonen R (4)(1) University of Helsinki, Department of physics, Finland, (2) Finnish Institute of Occupational Health, Helsinki, Finland, (3) Tampere University of Technology, Institute of Physics, Finland, (4) University of Kuopio, Department of Environmental Science, Finland7I.11DAerosol Motions in Mini Bifurcation Networks under Oscillatory Flow.6Liu Chang, Thomas Barak, Zongqin Zhang and Donna MeyerTDepartment of Mechanical Engineering, University of Rhode Island, Kingston, RI 028817I.123Computerized Counting and Classification of Pollen.sObservations of Ammonium/Sulfate Ratios as Aerosol Acidity Indicators at a Background Site in the Southeastern USA.9Roger L. Tanner (1), Ralph J. Valente (1), Jim Renfro (2)x(1) Tennesse Valley Authority, Environmental Technologies (2) National Park Service, Great Smoky Mountains National Park5G.06Fingerprints and Contributions of Aral Sea Region Soils to Coarse Particulate Matter in Central Asia: Preliminary Results from the Kyrgyz Republic.MARTIN SHAFER (1), James Schauer (1), Paul Solomon (2), Jeffrey Lantz (3), Igor Granberg (4), Boris Chen (5), Sanjar Imashev (5), Leonid Sverdlik (5), Greg Carmichael (6)(1) University of Wisconsin, Madison, (2) U.S. EPA ORD, Las Vegas, (3) U.S. EPA, ORIA, Las Vegas, (4) Institute of Atmospheric Physics RAS, Moscow, Russia, (5) Kyrgyz-Russian Slavic University, Bishkek, Kyrgyz Republic, (6) University of Iowa, Iowa City5G.07Single Particle Mass Spectrometer Measurements During the ASCOS 2008 Field Campaign: Chemical Composition of the Summer High Arctic Aerosol.qBERKO SIERAU (1), Maria Martin (1), Rachel Chang (2), Staffan Sjögren (3), Douglas Orsini (4), Caroline Leck (5)(1) Institute for Atmospheric and Climate Science, ETH-Zurich, Switzerland (2) University of Toronto, Canada (3) Lund University, Sweden (4) Leibniz Institute for Tropospheric Research, Leipzig, Germany (5) Stockholm University, Sweden 5G.08dAerosol Air Mass Type Mapping from Space, and How it Complements Suborbital Measurements and Models."Ralph Kahn (1) The MISR Team (1,2)e(1) NASA Goddard Space Flight Center, Greenbelt MD (2) Jet Propulsion Laboratory/Caltech, Pasadena CA5G.09EThe Influence of Averaging Timescales on Dry Deposition Calculations.KATHERINE B. BEEM (1), Christian Carrico (1), Florian M. Schwandner (1), Laura Mack (1), Taehyoung Lee (1), Amy P. Sullivan(1), Suresh Raja(1,3), Sonia M. Kreidenweis (1), William C. Malm (2), Jeffrey L. Collett, Jr. (1) (1) Colorado State University, Fort Collins, CO (2)NPS/CIRA Colorado State University, Fort Collins, CO (3)Currently at Clarkson University, Potsdam, NY5G.10Origin, Composition and Volatility of Aged Aerosol in the Eastern Mediterranean: The Finokalia Aerosol Measurement Experiments (Spring 2008 and Winter 2009).LEA HILDEBRANDT (1), Evangelia Kostenidou (2), Byong-Hyoek Lee (1), Gabriella J. Engelhart (1), Claudia Mohr (3), Peter F. DeCarlo (3), Andre S.H. Prevot (3), Urs Baltensperger (3), Nikos Mihalopoulos (4), Neil M. Donahue (1), Spyros N. Pandis (1) (2)(1) Carnegie Mellon University, Pittsburgh, PA (2) University of Patras, Foundation of Research and Technology (FORTH), Patra, Greece (3) Paul Scherrer Institute, Villigen, Switzerland (4) University of Crete, Heraklion, Greece 5G.11[Mass Spectral Characterization of Submicron Biogenic Organic Particles in the Amazon Basin.-Q. CHEN (1), D.K. Farmer (2), J. Schneider (3), S.R. Zorn (3,4), J.D. Allan (5), N. Robinson (5), H. Coe (5), C.L. Heald (6), T. Karl (7), A. Guenther (7), S. Borrmann (3), J.R. Kimmel (2,8), T. Pauliqueivis (9), U. Pöschl (3), M.O. Andreae (4), P. Artaxo (9), J.L. Jimenez (2), and S.T. Martin* (1) (1) Harvard University, Cambridge, Massachusetts, USA (2) University of Colorado, Boulder, Colorado, USA (3) Max Planck Institute for Chemistry, Mainz, Germany (4) University of Mainz, Mainz, Germany (5) University of Manchester, Manchester, UK (6) Colorado State University, Fort Collins, Colorado, USA (7) National Center for Atmospheric Research (NCAR), Boulder, Colorado, USA (8) Aerodyne Research, Inc., Billerica, Massachusetts, USA (9) Universidade de Sao Paulo, Rua do Matao, Sao Paulo, Brazil 5G.12^The Impact of Transported Aerosols on Visibility in Denali National Park and Preserve, Alaska.YCATHERINE F. CAHILL (1), Ashley N. Wallace (1), Thomas A. Cahill (2), David E. Barnes (2)G(1) University of Alaska Fairbanks, (2) University of California, Davis5G.13bRegional Differences in Organic Composition of Submicron and Single Particles During INTEX-B 2006.HDOUGLAS A. DAY, Satoshi Takahama, Stefania G. Gilardoni, Lynn M. RussellI Scripps Institution of Oceanography, University of California, San Diego5G.14:Aerosol Characteristics in the Athabasca Oil Sands Region.(YU-MEI HSU, Simone Balaski, Kevin Percy &Wood Buffalo Environmental Association5G.15~An Investigation of Positive and Negative Sampling Artifacts for Ambient Particulate Matter Organic Carbon in IMPROVE Samples.<ASHLEY D. MEFFERD (1), Jay R. Turner (2), Ann M. Dillner (1)J(1) University of California, Davis (2) Washington University, St. Louis 5G.16{Aerosol Number and Volume Concentrations During the Second Rocky Mountain Atmospheric Nitrogen and Sulfur Study (RoMANS 2).E. J. T. LEVIN (1), C. M. Carrico (1), K. B. Beem (1), M. Schurman (1), D. Day (2), S. M. Kreidenweis (1), J. L. Collett (1), Jr., B. Schichtel (2), and W. C. Malm (2)r(1) Colorado State University, Fort Collins (2) Cooperative Institute for Research in the Atmosphere, Fort Collins5G.17tEvaluation of Simulated Atmospheric Constituents with Observations over a European City affected by Natural Sources.{ELENI ATHANASOPOULOU (1), Maria Tombrou (1), Angeliki A. Karanasiou (2), Kostas Eleftheriadis (2), Armistead G. Russell (3)(1) National and Kapodistrian University of Athens, Greece (2) N.C.S.R. SDemokritos<  , Athens, Greece (3) Georgia Institute of Technology, Atlanta, USA 5G.18Conditional Probability Function (CPF) Analysis as a Tool to Understand the Aerosol and Gas Pollutant Source Contributions to a Rural New York State Sampling Site._Min-Suk Bae (1), JAMES SCHWAB (1), Wei-Nai Chen (1), Kenneth Demerjian (1), Oliver Rattigan (2)(1) Atmospheric Sciences Research Center, University at Albany, State University of New York, Albany, NY 12203, (2) New York State Department of Environmental Conservation, Division of Air Resources, 625 Broadway, Albany, NY 12233-32565G.19tImpact of Chemical Composition of Size-resolved Aerosol on Severe Haze in the National Park Area of Gyeongju, Korea."KYUNGWON KIM (1), Young J. Kim (2)H(1) Gyeongju University, (2) Gwangju Institute of Science and Technology5G.20Investigating Aerosol Source Contributions to a Rural Sampling Site at Southernmost point of Taiwan by conditional probability function (CPF) method.&WEI-NAI CHEN (1,2) and Min-Suk Bae (2)(1) Research Center for Environmental Changes, Academia Sinica, Taiwan (2) Atmospheric Sciences Research Center, University at Albany, State University of New York5G.21{Use of Surface Measurements and Modis Aerosol Optical Depth for Improved Model Based PM2.5 Prediction in the United States.bSINAN SOUSAN, Naresh Kumar, Scott Spak, Adam Beranek-Collins, Greg Carmichael, and Charles StanierH5H.01iAbsolute Size Measurement of 300 nm Polystyrene Latex Particles by Electro-gravitational Aerosol Balance.KEIJI TAKAHATA, Kensei EharaWNational Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Japan5H.02tThe correlation of ion concentration in UPW (Ultra Pure Water) and SMPS distribution after atomization was analyzed.\KITAI KANG(1), Jinhong Ahn(1), Jinuk Yoon(1) Yongtaek Kwon(1) , Gisoo Jeon(2), Kangho Ahn(2)&(1)HCT Co., Ltd (2)Hanyang University5H.03.Aerosol Electrical Mobility Spectrum Analyzer.!HYEOK CHUNG (1), Kang-Ho, Ahn (2)<(1) Hanyang University, SEOUL, (2) Hanyang University, Ansan5H.04Nanoparticle Size Characterization of 100 nm NIST SRM 1963a by Electro-Gravitational Aerosol Balance System with Uncertainty Analysis.BChih-Min Lin , Ta-Chang Yu, Wei-En Fu, Han-Fu Weng, Chao-Jung ChenJCenter for Measurement Standards, Industrial Technology Research Institute5H.05^Spectrothermography of Carbon Containing Compounds Using the SUNSET Real Time ECOC Instrument.^Min-Suk Bae (1), JAMES SCHWAB (1), Brian P. Frank (2), Wei-Nai Chen (1), Kenneth Demerjian (1)(1) Atmospheric Sciences Research Center, University at Albany, State University of New York, Albany, NY 12203, (2) Air Resources Division, New York State Department of Environmental Conservation, Albany, NY5H.06_Size-Resolved Scanning Flow CCN Analysis (SFCA): A Method for Fast Measurements of CCN Spectra."RICHARD H. MOORE, Athanasios Nenes Georgia Institute of Technology5H.07KNew Miniature Unipolar Corona Charger for Personal Aerosol Instrumentation.CHAOLONG QI, Pramod Kulkarni qCenters for Disease Control and Prevention, National Institute for Occupational Safety and Health, Cincinnati, OH5H.089Development of a Real-time, High-accuracy Fiber Monitor.:FRANCISCO ROMAY, Mark Battista, William Dick, Benjamin Liu MSP Corporation, Shoreview, MN5H.09ZRecent Advances in Monitoring Aerosol Chemical Composition with Microchip Electrophoresis.JSCOTT NOBLITT (1) Susanne Hering (2) Jeffrey Collett (1) Charles Henry (1)8(1) Colorado State University (2) Aerosol Dynamics, Inc.5H.10;A Low Cost Technique for Aerosolization of Supermicron PSL.%JAMES E. FARNSWORTH, Chuck Kramlinger TSI Incorporated, Shoreview, MN5H.11aThe development of an in-situ instrument to measure the semi-volatile organics in the atmosphere.YUNLIANG ZHAO (1), Alexander P. Teng (2), Nathan M. Kreisberg (2), David R. Worton (1), Lara A. Gundel (3), Susanne V. Hering (2), Allen H. Goldstein (1, 3) (1) Department of Environmental Science, Policy and Management, University of California, Berkeley, California, (2) Aerosol Dynamics Inc., Berkeley, California (3) Energy and Environmental Technologies Division, Lawrence Berkeley National Laboratory, Berkeley, California 5H.12NCollection efficiency of a midget impinger for nanoparticles 3-100 nm in size.ZHICHENG WEI, Lupita D. Montoya* Rensselaer Polytechnic Institute, Troy NY5H.13)Characterization of a Microtrap Impactor.9ERIN LENNOX (1), Nathan Kreisberg (2), Lupita Montoya (1)?(1) Rensselaer Polytechnic Institute, (2) Aerosol Dynamics Inc.5H.14HMeasurement of the particle diameters by differential mobility analysis.7Han-fu Weng, CHIH-MIN LIN, Sheng-Hang Wang, Ta-Chang Yu0Industrial technology research institute, Taiwan5H.16rCalibration Methodology for Real-time Fine Particle Monitors: Effects of Combustion Sources and Relative Humidity.cRUOTING JIANG, Kai-Chung Cheng, Viviana Acevedo-Bolton, Neil Klepeis, Wayne Ott, and Lynn HildemannThursday Plenary IIIERespiratory Dose Assessment of Inhaled Particles: Continuing Progress Chong S. Kim"US Environmental Protection AgencyExploring Local Drug Targeting using Direct Numerical Simulation of the Coupled Fluid and Rigid Body Motion of a Fibre in A Lung Bifurcation.D*A. Dechaume (1), W. H. Finlay (2), R. C. MARTINEZ (2), P. Minev (1)(1) Department of Mathematical and Statistical Sciences, University of Alberta, Canada (2) Department of Mechanical Engineering, University of Alberta, Canada *authors are listed alphabetically 8C.02ZDevelopment and In Vivo Evaluation of a Novel Engineered Particle for Inhalation Delivery.Philip J. Kuehl (1), Edward G. Barrett (1), Dan E. Dobry(2), David K. Lyon (2), Jacob D. McDonald (1), Karin Rudolph (1), and David T. Vodak (2) k(1) Lovelace Respiratory Research Institute, Albuquerque, NM, USA (2) Bend Research Inc., Bend, Oregon, USA8C.04PAerosol Deposition of Inhaled Dry Powder and Nebulized Albuterol in Beagle Dogs.HMelanie Doyle-Eisele, Philip Kuehl, Rachel W. Spindle, and Jake McDonald8C.05YMouth-Throat Losses for Sitting versus Lying Administration of Respiratory Drug Aerosols. Mohammed Ali.Jackson State University, Jackson, Mississippi8C.06@Particle Deposition in the USP and Physical Mouth-Throat Models.%YUE ZHOU, Jiajie Sun, Yung-Sung ChengAerosols, Clouds & Climate I8D.01NImpact of autoconversion schemes on prediction of the aerosol indirect effect.LATHANASIOS NENES (1), Wei-Chun Hsieh (1), John Seinfeld (2), Peter Adams (3)i(1) Georgia Institute of Technology (2) California Institute of Technology (3) Carnegie Mellon University8D.02TThe impact of nucleation on cloud microphysical properties and autoconversion rates.BY. H. Lee (1), J. R. Pierce (2), A. Nenes (3), and P. J. Adams (1)Z(1) Carnegie Mellon Unversity (2) Dalhousie University (3) Georgia Institute of Technology8D.03Observationally-based Parameterization of Ice Nuclei Dependence on Aerosol Properties and Temperature and its Use for Numerical Modeling Studies of Aerosol Indirect Effects.zPAUL DEMOTT (1), Anthony Prenni (1), Xiaohong Liu (2), Marat Khairoutdinov (3), Charlotte DeMott (1), and Mark Branson (1)d(1) Colorado State University, (2) Pacific Northwest National Laboratory, (3) Stony Brook University8D.04Parameterization of Ice Cloud Formation for Large-Scale Simulations: Heterogeneous Freezing of Polydisperse Aerosol and GCM studies of Ice Crystal Number Distribution.'DONIFAN BARAHONA, ATHANASIOS NENES, (2_(1) School of Chemical and Biomolecular Engineering, Georgia Institute of Technology (2) School of Earth and Atmospheric Sciences, Georgia Institute of Technology 8D.05Characterizing the Size and Composition of Cloud Condensation Nuclei (CCN) and Ice Cloud Nuclei (IN) over the North Pole of Alaska.]ALLA ZELENYUK (1), Dan Imre (2), Peter Liu (3), Anne Marie Macdonald (3), Richard Leaitch (3)V(1) Pacific Northwest National Laboratory, (2) Imre Consulting, (3) Environment Canada8D.06Quantifying the Particle and Gas Effec< ts of Aircraft on Global and Arctic Climate While Treating the Subgrid Evolution of Contrails From All Flights Worldwide.FMark Z. Jacobson, Jordan T. Wilkerson, Alex D. Naiman, Sanjiva K. Lele*Carbonaceous Aerosols in the Atmosphere II8E.01Modeling Global Secondary Organic Aerosol Formation and Processing with the Volatility Basis Set: Implications for Anthropogenic SOA.CSALVATORE C. FARINA (1), Peter J. Adams (1), Spyros N. Pandis (1,2)(1) Center For Atmospheric Particle Studies, Carnegie Mellon University, (2) Institute of Chemical Engineering and High Temperature Chemical Processes (ICE-HT), Foundation of Research and Technology (FORTH), Patra, Greece8E.02lInvestigation of Non-Carbon Organic Matter Concentrations Using Ambient Measurements and Air Quality Models.:HEATHER SIMON (1), Prakash V. Bhave (1), Neil H. Frank (2)(1) Office of Research and Development, EPA, Research Triangle Park (2) Office of Air Quality Planning and Standards, EPA, Research Triangle Park8E.03%Global Simulation of Organic Aerosol.CHAVALA O. T. PYE, Fabien Paulot, Paul O. Wennberg, John H. Seinfeld8E.04The relationship between UV/VIS light absorption spectra and water-soluble aerosol composition at various rural and urban sites in Southeastern United States.NARSINEH HECOBIAN (1), Xiaolu Zhang (1), Neil Frank (2), and Rodney J. Weber(1)^(1) Georgia Institute of Technology, (2) U.S. EPA/Office of Air Quality Planning and Standards8E.05iAirborne measurements of the spatial distribution and mixing state of light absorbing carbon over Europe.GAVIN MCMEEKING (1), Dantong Liu (1), William Morgan (1), Megan Northway (2), James Allan (1), Ellie Highwood (2), and Hugh Coe (1)7(1) University of Manchester, (2) University of Reading8E.06^Wavelength Dependence of Aerosol Light Absorption: Diurnal and Seasonal Variation in Reno, NV.?MADHU GYAWALI (1), W. Patrick Arnott (1), Hans Moosmüller (2) G(1) University of Nevada, Reno, (2) Desert Research Institute, Reno, NVInstrumentation IV8F.01eDistinctive Detection of Airborne Engineered Nanoparticles by On-line Aerosol Measurement Techniques.8HIROMU SAKURAI, Yoshihiro Sato, Akira Yabe, Kensei EharaH National Institute of Advanced Industrial Science and Technology (AIST)8F.02The Abbreviated Impactor Measurement (AIM) Concept: A Simplified Approach to the Problem of Inhaler Aerosol Particle Size Characterization.JOLYON P MITCHELL-Trudell Medical International, London, Canada6C.06-A New Technology for Pulmonary Drug Delivery. Jesse ZhuAParticle Technology Research Centre University of Western Ontario6C.07aUnderstanding Aggregate Formation in Therapeutic Aerosols from Pressurized Metered Dose Inhalers.PREINHARD VEHRING, Mark Postich, Lisa Williams, James W. Ivey, Michael S. Hartman' Pearl Therapeutics, Inc., Redwood City6C.08Aerosol Deposition in Monkeys.\YUNG SUNG CHENG, Hammad Irshad, Phillip Kuehl, Thomas Holmes, Robert Sherwood, Charles Hobbs&Lovelace Respiratory Reserch Institute6D.01CContribution of Long Range Transport to Local Air Quality Problems.*KRISTINA WAGSTROM (1), Spyros Pandis (1,2)?(1) Carnegie Mellon University (2) University of Patras, Greece6D.02^Variation in the Chemistry of Precipitation and Ambient Aerosols at a Remote Continental Site.JESSIE M. CREAMEAN (1), Andrew P. Ault (1), Cassandra J. Gaston (2), Gregory Roberts (4), Christopher R. Williams (2,3), F. Martin Ralph (3), Kimberly A. Prather (1,4)(1) Department of Chemistry and Biochemistry, University of California, San Diego, La Jolla, CA 92093 USA, (2) Cooperative Institute for Research in Environmental Sciences, University of Colorado, (3) Physical Sciences Division, National Oceanic and Atmospheric Administration/Earth System Research Laboratory, Boulder, Colorado, (4) Scripps Institution of Oceanography, University of California, San Diego, La Jolla, CA 92093 USA6D.03TAtmospheric Mineral Dust Modeling from Meso to Global scales with the NMMB/BSC-DUST.sCarlos Perez (1), Karsten Haustein (1), Oriol Jorba (1), Zavisa Janjic (2), Sara Basart (1), JOSE M. BALDASANO (1) H(1) Barcelona Supercomputing Center, Spain, (2) NCEP/UCAR, Camp Springs 6D.04XSingle Scattering Albedo of Fine Mineral Dust Aerosols Controlled by Iron Concentration.fHANS MOOSMSLLER (1) Johann Engelbrecht (1) W. Patrick Arnott (2) John A. Gillies (1) Michal Skiba (1)6D.05Case study: elevated methanesulfonic acids (MSA) concentrations in an ultrafine particle events originated in the tropical Atlantic Ocean.fM. Dall'Osto (1) J. Bialek (1), R. Dupuy (1), D. Ceburnis (1), D. Worsnop (2) and Colin O "!Dowd (1) (1) Department of Experimental Physics and Environmental Change Institute, National University of Ireland, Galway, Ireland (2) Aerodyne Research, Inc., Billerica, USA 6D.06Comprehensive Measurements of Aerosols in a Marine Environment and Modelling of Hygroscopicity, Cloud Microphysics and Heterogeneous Processes.4JAMES ALLAN (1), Hugh Coe (2), Paul Williams (1), Michael Flynn (2), Nicholas Good (2), Martin Irwin (2), David Topping (1), Jonathan Crosier (1), Paul Connolly (2), Alex Baker (3), Nicole Kaaden (4), Alfred Wiedensohler (4), Sandra Lehmann (5), Konrad Müller (5), Hartmut Herrmann (5), Gordon McFiggans (2)m(1) National Centre for Atmospheric Science, University of Manchester, (2) School of Earth, Atmospheric & Environmental Sciences, University of Manchester, (3) School of Environmental Sciences, University of East Anglia, (4) Department of Physics, Leibniz Institute for Tropospheric Research, (5) Department of Chemistry, Leibniz Institute for Tropospheric Research6D.07Marine Organic Aerosol: Quantifying Hydroxyl Group Contributions from Ocean Sugars to Coastal and Shipboard Measurement Campaigns.LYNN RUSSELL (1), Amanda Frossard (1), Doug Day (1), Lelia N. Hawkins (1), Patrick Shaw (1), Patricia K. Quinn (2), and Tim S. Bates (2) (1) Scripps Institution of Oceanography, University of California San Diego, La Jolla, California, (2) Pacific Marine Environmental Laboratory, National Oceanic and Atmospheric Administration, Seattle, Washington 6D.08OThe Impact of Marine Organic Aerosols on Coastal Air Quality of the Western US.=BRETT GANTT (1), Nicholas Meskhidze (1), Annmarie Carlton (2)w(1) North Carolina State University, Raleigh (2) U.S. EPA - Office of Research and Development, Research Triangle Park\Symposium: Nanomaterials for Energy Applications II/ Nanoparticles and Materials Synthesis I6E.01_Particle Technology and Product Design  Particle-Enhanced Materials for Energy Applications. BERND SACHWEH BASF-SE6E.03yMorphology of flame synthesed of nanosized Cu-Ce-O, Ni-Ce-O and Fe-Ce-O catalysts for the water-gas shift (WGS) reaction.Ranjan K. Pati (1), Ivan C. Lee (2), Sicong Hou (1), Osifo Akhuemonkhan (1), Karen J. Gaskell (1), Lourdes G. Salamanca Riba (1), and SHERYL H. EHRMAN (1)R(1) University of Maryland, College Park, (2) Army Research Laboratory, Adelphi MD6E.04nNanostructured Metal Oxide Films by Vapor-Aerosol Deposition (VAD) and Its Application to Hydrogen Production.)WOO-JIN AN, Elijah Thimsen, Pratim Biswas`Department of Energy, Environmental and Chemical Engineering, Washington University in St. Louis6E.05TThe Surface Area Dependent Antibacterial Effect of Flame-made Ag/SiO2 Nanoparticles.Georgios A. Sotiriou (1), Adrian Camenzind (1), Andreas Meyer (2), Frank Krumeich (3), Sven Panke (2), SOTIRIS E. PRATSINIS (1)=(1) Particle Technology Laboratory, Institute of Process Engineering, Department of Mechanical and Process Engineering, ETH Zurich (2) Bioprocess Laboratory, Department of Biosystems Science and Engineering, ETH Zurich (3) Laboratory of Inorganic Chemistry, Department of Chemistry and Applied Biosciences, ETH Zurich6E.06`Single-step Flame Aeros< ol Synthesis of Cu-doped TiO2 Nanomaterials and Their Potential Toxicity.5MANORANJAN SAHU , Bing Wu, Yinjie Tang, Pratim Biswas^Department of Energy, Environmental & Chemical Engineering, Washington University in St. Louis6E.07dFlame-Synthesized Zn-Doped Fe2O3 Nanoparticles and Microparticles: Different Gas Sensing Properties.3Taeyang Kim, Andrew C. Sharp, Hoon Yim and BING GUO6E.08JHermetically coated superparamagnetic Fe2O3 particles with SiO2 nanofilms.ALEXANDRA TELEKI, Marcel Suter, Piran R. Kidambi, Ann M. Hirt, Olgac Ergeneman, Frank Krumeich, Bradley J. Nelson, Sotiris E. PratsinisETH Zurich, SwitzerlandInstrumentation III6F.01JDevelopment of Inkjet Aerosol Generator for Calibrating Particle Counters.7KENJIRO IIDA, Hiromu Sakurai, Keizo Saito, Kensei EharaENational Institute of Advanced Science and Technology, Tsukuba, Japan6F.02yA New Instrument for Nanoparticle Agglomerates using Combined Measurement of Electrical Mobility and Charging Properties.XD.Y.H. Pui(1), H. Fissan(2), J. WANG(1), W.G. Shin(1), M. Mertler(3) and B. Sachweh(3) ~Comparitive Toxicology and Chemistry of Biogenic and Anthropogenic Secondary Organic Aerosols (SOA): Alpha Pinene and Toluene.Melanie Doyle-Eisele (1), Jason D Surratt (2), John Seinfeld (2), Matt Campen (1), Eladio Knipping (3), Annette Rohr (3), and Jake McDonald (1){(1) Lovelace Respiratory Research Institute, (2) California Insititute of Technology, (3) Electric Power Research Institute9C.058PM10 is Associated With Slower Marathon Times for Women.&LINSEY C. MARR (1), Matthew R. Ely (2)L(1) Virginia Tech (2) U.S. Army Research Institute of Environmental MedicineAerosols, Clouds & Climate II9D.010CCN Cloud Droplet and Drizzle Drop Correlations.)JAMES G. HUDSON Stephen Noble Vandana Jha#Desert Research Institute, Reno, NV9D.02JAerosol Indirect Effects on Stratocumulus Clouds in the Southeast Pacific.CYNTHIA TWOHY (1), James Anderson (2), Darin Toohey (3), Lindsey Shank (4), Steven Howell (4), Antony Clarke (4), and Robert Wood (5) (1) Oregon State University, Corvallis (2) Arizona State University, Tempe (3) University of Colorado Boulder (4) University of Hawaii, Honolulu (5) University of Washington, Seattle 9D.03yCCN Study at Urban Supersite (T0) During MILAGRO: the Essential Information for Prediction of Aerosol CCN Concentrations.cJIAN WANG (1), Michael J. Cubison (2), Allison C. Aiken (2), Jose-Luis Jimenez (2), Don Collins (3)(1) Atmospheric Sciences Division, Brookhaven National Laboratory, Upton, NY, (2) Department of Chemistry and Biochemistry and CIRES, University of Colorado at Boulder, Boulder, CO, (3) Department of Meteorology, Texas A&M University, College Station, TX9D.04bThe Influence of Chemical Complexity on the Morphology and CCN Activity of Mixed Organic Aerosols.(TIMOTHY RAYMOND, Juan Alberto Lopez Ruiz Bucknell University9D.053Cloud Condensation Nuclei Activity of Isoprene SOA.JGabriella J. Engelhart (1), Athanasios Nenes (2,3), Spyros N. Pandis (1,4)p(1) Department of Chemical Engineering, Carnegie Mellon University, Pittsburgh, Pennsylvania (2) School of Chemical and Biomolecular Engineering, Georgia Institute of Technology, Atlanta, Georgia (3) School of Earth and Atmospheric Sciences, Georgia Institute of Technology, Atlanta, Georgia (4) Department of Chemical Engineering, University of Patras, Patra, Greece +Carbonaceous Aerosols in the Atmosphere III9E.011Volatility of Ambient Aerosol at a Site in SE US.,ANDREY KHLYSTOV, Ming-Yeng Lin, Rawad Saleh I Dept. of Civil and Environmental Engineering, Duke University, Durham NC9E.02mOn the Spatial Distribution of Fine Particle Water-Soluble Organic Aerosol in the Southeastern United States.KXIAOLU ZHANG (1), Eric S. Edgerton (2), Neil Frank (3), Rodney J. Weber (1)(1) School of Earth and Atmospheric Sciences, Georgia Institute of Technology (2) Atmospheric Research and Analysis, Inc. (3) USEPA, Air Quality Assessment Division 9E.03[Protein and Carbohydrate Associations with Fine Particulate Matter in Sub-Alpine Aerosols.{ALINA M. HANDOREAN (1), Kevin McCabe (1), Karen Diaz (1), Jim Smith (2), Christine Weidenmeyer (2) and Mark Hernandez (1) (1) College of Engineering and Applied Science The University of Colorado at Boulder (2) National Center for Atmospheric Research 9E.04UThe Roles of Organic Acid-Base Chemistry in Atmospheric Aerosol Formation and Growth.bJAMES SMITH (1), Kelley Barsanti (1), Brent Williams (2), Peter McMurry (2), and Joel Kimmel (3,4)(1) NCAR, Boulder, CO (2) University of Minnesota, Minneapolis, MN (3) Aerodyne Research Inc., Billerica, MA (4) TOFWerk, Thun, Switzerland9E.05oNucleation and Growth in the Amazon: Results from the Amazonian Aerosol Characterization Experiment (AMAZE-08).FScot T. Martin (1), Paulo Artaxo (2), and the AMAZE-08 Scientific TeamK(1) Harvard University, Cambridge, USA, (2) University of Sao Paulo, Brazil9F.01`Identification of Potential Source Regions of PMF-Modeled Sources of PM2.2 in Dhaka, Bangladesh.TBilkis A. Begum (1), Swapan K. Biswas (1), Andreas Markwitz (2), PHILIP K. HOPKE (3)(1) Chemistry Division, Atomic Energy Centre, Dhaka, Bangladesh (2) GNS Science, Lower Hutt, New Zealand (3) Center for Air Resources Engineering and Science, Clarkson University, Potsdam, NY9F.02cChemical Analysis for Source Attribution of Fine and Coarse Particulate Matter in Pinal County, AZ.ANDREA L. CLEMENTS (1), Yuling Jia (1), Matthew P. Fraser (1,2), Pierre Herckes (2), Michael Sundblom (3), Jeffrey Lantz (4), Catherine Brown (5), Paul A. Solomon (6) (1) Rice University, Houston, (2) Arizona State University, Tempe, (3) Pinal County Air Quality Control District, Florence, (4) US EPA Office of Air and Radiation, Las Vegas, (5) US EPA Region 9, San Francisco, (6) US EPA Office of Research and Development, Las Vegas 9F.03{Investigation of Sources of Ambient Submicron Aerosol in the Zurich Metropolitan Area Using AMS Mobile and Stationary Data.{CLAUDIA MOHR, René Richter, Peter F. DeCarlo, Roberto Chirico, Maarten F. Heringa, Andre S. H. Prévôt, Urs Baltensperger9F.04VLong-term study of atmospheric aerosol: Chemical composition and Source apportionment.`ANGELIKI KARANASIOU (1), Pavlos Zarmpas (2), Nikos Mihalopoulos (2) and Kostas Eleftheriadis (1)U(1) Institute of Nuclear Technology and Radiation Protection, Environmental Radioactivity Laboratory , National Centre of Scientific Research SDemokritos , 15310 Ag. Paraskevi, Attiki, Greece (2) Environmental Chemical Processes Laboratory, Department of Chemistry, University of Crete, P.O. Box 2208, Gr-71003 Voutes, Heraklion, Greece 9F.05,Ensemble-Trained PM2.5 Source Apportionment.eSIVARAMAN BALACHANDRAN (1), Dongho Chang (2), Jorge Pachon (1), Sangil Lee (3), Armistead Russell (1)(1) Georgia Institute of Technology, Atlanta, (2) Gyeongnam Province Institute of Health and Environment, Changwon, Korea, (3) Korea Research Institute of Standards and Science, Daejon )Nanoparticles and Materials Synthesis III10A.01ASynthesis of TiO2 nanoparticles by Stagnation-point Swirl Flames.DJunjing Wang(1), SHUIQING LI(1,*), Stephen D. Tse(1,2), Qiang Yao(1)$(1) Key Laboratory for Thermal Science and Power Engineering of Ministry of Education, Department of Thermal Engineering, Tsinghua University, Beijing, 100084, CHINA (2) Department of Mechanical and Aerospace Engineering, Rutgers, the State University of New Jersey, Piscataway, NJ 08854, USA10A.02RLarge-eddy Simulation of Titania Formation and Growth in Turbulent Reacting Flows.-Jason Loeffler, Shankhadeep Das, Sean Garrick%University of Minnesota - Twin Cities10A.03@Release Profile Characteristics of Biodegradable-polymer-coated. YI-HSUAN LEE (1), Daren Chen (2)< K(1)Washington University in St. Louis (2)Washington University in St. Louis10A.04NDirect Aerosol Printing of Monolayer Nanocrystal Films with Aerodyamic Lenses.BLEJUN QI, Peter H. McMurry, David J. Norris and Steven L. Girshick10B.01IA Parallel-Plate Wet Electrostatic Precipitator for Nanoparticle Control.HLin Guan-Yu (1), Tsai Chuen-Jinn (1), Chen Tzu-Ming (2), Li Shou-Nan (2)a(1) National Chiao Tung University, Hsinchu (2) Industrial Technology Research Institute, Hsinchu10B.02KFiltration of Nanoparticles: Evolution of Cake Structure and Pressure-Drop.bSotiris E. Pratsinis (1), Tobias Dokkedal Elmøe (1), Antonio Tricoli (1), Jan-Dierk Grunwaldt (2)>(1) The Ohio State University, (2) Argonne National Laboratory7C.11KNeutral Fractions of Carbon Nanofiber Aerosols in a Bipolar Ion Atmosphere.:BON KI KU, Gregory J. Deye, Pramod Kulkarni, Paul A. BaronONational Institute for Occupational Safety and Health (NIOSH), Cincinnati, Ohio7C.12lAnalytical-statistical modeling of nanoparticle deposition probability on inverted surfaces at low pressure.bCHRISTOF ASBACH (1), Heinz Fissan (1), Thomas A.J. Kuhlusch (1), David Y.H. Pui (2), Jing Wang (2)(1) Institute of Energy and Environmental Technology (IUTA), Air Quality & Sustainable Nanotechnology Unit, Duisburg, Germany (2) Department of Mechanical Engineering, University of Minnesota, Minneapolis, USA7C.13lEngineering of Silicon Nanoparticles in a Low Pressure Plasma: a Model of Charging, Heating and Coagulation.FEDERICO GALLI, Uwe Kortshagen6 Dept. Mechanical Engineering, University of Minnesota7C.14DLow Fractal Dimension Carbonaceous Aggregates from a Premixed Flame.RAJAN K. CHAKRABARTY (1), Hans Moosmüller (1), W. Patrick Arnott (2)(1), Mark A. Garro (1)(3), Guoxun Tian (1)(2), Jay G. Slowik (4), Eben S. Cross (5), Jeong-Ho Han (5), Paul Davidovits (5), Timothy B. Onasch (6), and Douglas R. Worsnop (6)(1) Desert Research Institute, Nevada System of Higher Education, Reno, Nevada (2) Department of Physics, University of Nevada, Reno, Nevada (3) Division of Engineering and Applied Sciences, Harvard University, Cambridge, Massachusetts (4) Department of Chemistry, University of Toronto, Toronto, Ontario (5) Department of Chemistry, Boston College, Chestnut Hill, Massachusetts (6) Aerodyne Research Inc., Billerica, Massachusetts 7C.15BProperties of the ions generated by bipolar and unipolar chargers.KENKICHI NAGATO+Kochi National College of Technology, Japan7C.16OA CRCD Course on Particle Transport, Deposition and Removal - An Online Course.Goodarz Ahmadi (1), Suresh Dhaniyala (1), John McLaughlin (1), Cetin Cetinkaya (1), Stephen Doheny-Farina (1), and Fa-Gung Fan (2)/(1) Clarkson University, (2) Xerox Corporation Control Technology7D.01;Performance Study of Electrically Assisted Virtual Cyclone.Ta-Chih Hsiao, and Da-Ren Chen4 Washington University in St. Louis, St Louis, USA 7D.02?Assessing the need for neutralizing KCl filter testing aerosol.;PAOLO TRONVILLE (1), Richard Rivers (2), Massimo Ellena (3)(1) Politecnico di Torino, Dipartimento di Energetica, Corso Duca degli Abruzzi 24, 10129 Turin, Italy (2) EQS, inc., 1262 Bassett Ave., Louisville, KY 40204, USA (3) TEXA S.r.l., Via Simone Gribaudo, 22/A, 10034 Chivasso (TO), Italy7D.03SA Novel Technique for Control of Hazardous Metal Emissions from Welding Operations.Nathan Topham (1), Mark Kalivoda (1), Sewon Oh (2), Yu-Mei Hsu (3), Ariana Tuchman (4), Joyce Huang (1), Chang-Yu Wu (1), Kuk Cho (5)(1) University of Florida, Department of Environmental Engineering, (2) Sangmyung University, Korea, (3) Wood Buffalo Environmental Association, Ft. McMurray, (4) University of Florida, Department of Political Science, (5) Korea Institute of Geoscience and Mineral Resources7D.04CRemoval of PM2.5 by a Wet ESP with Water Film Collection Electrode.sDONG KEUN SONG, Sang Hyun Jeong, Won Seok Hong, Sung Hoon Shim, Wan Ho Shin, Bangwoo Han, Hakjoon Kim, Yong Jin KimG Korea Institute of Machinery and Materials, Daejeon, Republic of Korea7D.05Characterization of the Calcium Carbonate Sorbent Particles in a High-Temperature Drop Tube Furnace: Effects of the Residence Time and Surrounding Atmosphere.DKANG SOO LEE(1), Jae Hee Jung(1,2), Sang In Keel(3), Sang Soo Kim(1)(1)Korea Advanced Institute of Science and Technology(KAIST) (2)Korea Institute of Science and Technology(KIST) (3)Korea Institute of Machinery and Materials(KIMM)7D.06>Use of Synthetic Jets to Control Aerosol Dispersion in a Room.MICHAEL ALLARD, Lupita Montoya! Rensselaer Polytechnic Institute Combustion II7E.01"Kinetics of Soot Oxidation by NO2.PManish Shrivastava (1,2), Hao-Wei Wu (1,2), Anh Nguyen (1,2), Heejung Jung (1,2)~(1) CE-CERT, University of California, Riverside (2) Department of Mechanical Engineering, University of California, Riverside7E.02LLow Temperature Incineration of Diesel Soot Using Direct Non-Thermal Plasma.eMohsen Sadeghi (1), Abbasali Khodadadi (1), Seyyed Shamsoddin Mohajerzadeh (2), Saeed Shokrollahi (1)(1) Catalyst and Reaction Engineering Research Lab, Department of Chemical Engineering, University of Tehran, (2) Thin Film Lab, Department of Electrical and Computer Engineering, University of Tehran 7E.03zChemical Characteristics and Oxidative Potential of Particulate Matter Emissions from Gasoline, Diesel and Biodiesel Cars.Ka Lam Cheung (1), Andrea Polidori (1), Leonidas Ntziachristos (2), Theodoros Tzamkiozis (2), Zissis Samaras (2), Flemming R. Cassee (3), M. Gerlofs (3), and Constantinos Sioutas (1)j(1) University of Southern California, Department of Civil and Environmental Engineering, 3620 South Vermont Avenue, Los Angeles, CA 90089, USA (2) Laboratory of Applied Thermodynamics, Aristotle University, Thessaloniki 54124, Greece (3) Center of Environmental Health Research, National Institute for Public Health and the Environment (RIVM), The Netherlands 7E.04\PM and Gaseous Criteria Pollutant Emissions from Biodiesel and Renewable Diesel Fuel Blends.KWANGSAM NA (1), Thomas Ladzinski (1), Subasis Biswas (1), William H. Robertson (1), Thomas D. Durbin (2), Robert Okamoto (1), Keshav Sahay (1), Erik White (1)(1) California Air Resources Board, Mobile Source Control Division/Heavy-Duty Diesel Emission Testing Laboratory, (2) University of California, College of Engineering, Center for Environmental Research and Technology (CE-CERT)7E.05zChanges in the Morphology of Ultrafine Particles Emitted from a Diesel Engine Due to Fuel Type and Exhaust Aftertreatment.BRIAN P. FRANK (1), Daniel Hershey (1), Thomas Lanni (1), Shida Tang (1), Jillian Grygas (1), Greg Rideout (2), Chris Beregszaszy (2) (1) New York State Department of Environmental Conservation, (2) Emissions Research and Measurement Division, Environment Canada7E.06uA Study of Particulate Emissions From Stationary Engines Operating on Ultra Low Sulfur Diesel Blended With Biodiesel.8RAGHU BETHA, Dongying Ye and Rajasekhar Balasubramanian RDivision of Environmental Science and Engineering National University of Singapore7E.07RDiesel Particle Emissions for the Blended Fuels of Diesel, Biodiesel, and Ethanol.<XU-NA (1), Hee-Joo Cho (1), Ji-Yeon Park (2), Ho-Jin Lim (1)(1) Kyungpook National University, Daegu, Republic of Korea (2) National Institute of Environmental Research, Incheon, Republic of Korea7E.08=Effect of Biodiesel on Emissions from a Modern Marine Engine.[Varalakshmi Jayaram, Harshit Agrawal, William W. Welch, J. Wayne Miller, DAVID R COCKER III Bourns College of Engineering, Center for Environmental Research and Technology (CE-CERT), University of California, Riverside, CA 92507, USA 7E.09vCharacterization of Polycyclic Aromatic Hydrocarbons (PAH) and Nitro-PAH Emissions from HDDV with PM and NOX Controls.SHAOHUA HU (1), Jorn D. Herner (1), William Robertson (1), John Collins (1), Oliver M.-C Chang (1), Reiko Kobayashi (2), Norman Kado (1,2), Barbara Zielinska (3), Shiou-Mei Huang (1), Paul Rieger (1), Tao Huai (1), Harry Dwyer (1), Alberto Ayala (1)(1) California Air Resources Board< , Sacramento/El Monte, CA (2) University of California, Davis, (3) Desert Research Institute, NV Symposium: Biodefense7F.01\Disposition of MS2 Virus in Aerosol Particles Produced by Nebulization from Different Media.kChang-Yu Wu (1), Jin-Hwa Lee (1), Diandra Anwar (1), CHRISTIANA LEE (1), Ariana Tuchman (1), Joe Wander (2)U(1) University of Florida, Gainesville (2) Air Force Research Laboratory, Tyndall AFB7F.02KDesign, Construction, and Operation of the LRRI Bioaerosol Exposure System.)EDWARD BARR, Steven Storch, Trevor Brasel7F.03INatural History of Inhalational Ebola Sudan in a Non-Human Primate Model.<PAUL DABISCH, Matthew Lackemeyer, Aysegul Nalca, Louise PittM US Army Medical Research Institute of Infectious Diseases, Fort Detrick, MD7F.04vInfectivity Study of Francisella tularensis, LVS, Penetration through a Reactive Filter Medium on a Live Animal Model.`RASHELLE S. McDONALD (1), Brian K. Heimbuch (1), Brenton R. Stone (1,2) and Joseph D. Wander (3)(1) Applied Research Associates, Tyndall AFB, Fla., (2) Dept. of Environmental Engineering Sciences, U of Florida, Gainesville, Fla., (3) Airbase Sciences Branch, Air Force Research Laboratory, Tyndall AFB, Fla.7F.05JA Novel Bioaerosol Amplification Unit for Improved Viral Aerosol Sampling.dSewon Oh(1), Diandra Anwar(2), Alexandros Theodore(2), Jin-Hwa Lee(3), CHANG-YU WU(3), Joe Wander(4) (1) Sangmyung University, Department of Environmental Engineering, (2) University of Florida, Department of Chemical Engineering, (3) University of Florida, Department of Environmental Engineering Sciences, (4) Air Force Research Laboratory, Tyndall Air Force Base 7F.06,Evaluation of Bioaerosol Sampler Efficiency.,JACKY ANN ROSATI (1), Zora Drake-Richman (2)(1) US EPA, National Homeland Security Research Center, Research Triangle Park, NC (2) Alion Science and Technology, Research Triangle Park, NC7F.07ODeposition Characteristics of Nano-channel Glass Aerosol Collection Substrates.HOwen Price (1) BAHMAN ASGHARIAN (1) Jay Eversole (2) Charles Meritt (2)X(1) Applied Research Associates, Raleigh NC (2) Naval Research Laboratory, Washington DC7F.08Design, Development and Characterization of a Novel Benchtop Combustion Chamber for Generating Interferents to Chemical and Biological Warfare Agent Sensors.KCHRISTOPHER BARE, Neal Baker, Shanna Ratnesar-Shumate, Joshua L. Santarpia 7F.09KDevelopment of a New Test Chamber for Large Item Testing with BSL-3 Agents.pKEVIN HOMMEMA, Matthew Shaw, Richard Hall, Rodney Black, Ryan Cahall, Ann Murdock, Richard Byers, and Jon Eastep+Battelle Memorial Institute, Columbus, Ohio7F.10 SCollection Efficiency Is Not a Good Measure of Effectiveness for Biodefense SAerosol Collectors : A Proposed Lexicon of Standard Terms for Characterizing Aerosol Samplers, with Application Examples.#EDWARD W. STUEBING and Jana Kesavan, US Army Edgewood Chemical Biological Center7F.11sExperimental and numerical study of heat and mass transfer in a family of wetted-wall bioaerosol sampling cyclones.=Josh Hubbard (1,2), Ofodike Ezekoye (1,2), John Haglund (1,2)(1) The Applied Research Labs at The University of Texas at Austin (2) Department of Mechanical Engineering at The University of Texas at Austin7F.120Electrospray Method to Coat Aerosols On-the-Fly.KMatthew B. Hart(1), Elric Saaski(2), Anali Makoui(1) and Jay D. Eversole(1)R(1) Naval Research Laboratory, Washington DC (2) Research International, Monroe WA7F.136The Standoff Aerosol Active Signature Testbed (SAAST).Quantification of nanoparticles and dissolved solids in water using a Membrane Filtration  Differential Mobility Analyzer (MF-DMA) counting technique.(JIYEON PARK, SEUNGIL LIM , KIHONG PARK* 8F.03;A Growth Tube Lens for Particle Focusing and Concentration.9STEVEN R. SPIELMAN, Gregory S. Lewis, Susanne V. Hering #Aerosol Dynamics Inc., Berkeley, CA8F.04PEnvironmental Monitoring Water-based CPC Model 3783 Description and Performance.eFREDERICK R. QUANT(1), Derek R. Oberreit (1), Qian Shi (1), Robert Caldow (2), Brian L. Osmondson (2)N(1) Quant Technologies, LLC, Blaine, MN, USA (2) TSI Inc., Shoreview, MN, USA 8F.05MA novel personal thermophoretic sampler for nanoparticle exposure assessment.Nkwenti Azong-Wara (1), HEINZ FISSAN (1), Christof Asbach (1), Burkhard Stahlmecke (1), Heinz Kaminski (1), Sabine Plitzko (2), Thomas A.J. Kuhlbusch (1) (1) Institute of Energy and Environmental Technology (IUTA), Air Quality & Sustainable Nanotechnology, Duisburg, Germany (2) Federal Institute for Occupational Safety and Health (BAuA), Berlin, Germany8F.06xBipolar Charging of Aerosol Nanoparticles: Effects of Ion Source and Activity, Neutralizer Configuration, and Flowrate.JINGKUN JIANG (1), Chungman Kim (1), Xiaoliang Wang (2), Mark Stolzenburg (1), Chaolong Qi (3), Peter H. McMurry (1), Stanley Kaufman (2), Gilmore Sem (2), Hiromu Sakurai (4)(1) University of Minnesota, (2) TSI Inc. (3) NIOSH, (4) National Institute of Advanced Industrial Science and Technology, JapanFriday Plenary IV8Nanoparticles and Particle Number Emissions from EnginesDavid Kittelson-Student Poster Competition Award Presentation-Timothy Raymond, Student Poster Program ChairBucknell University$Concluding Remarks, Preview for 20107C Y Wu and Cynthia Twohy, 2009 & 2010 Conference Chairs.University of Florida, Oregon State University'Nanoparticles and Material Synthesis II9A.01+Direct Deposition of Anti-Fogging Coatings.7Antonio Tricoli, Marco Righettoni, SOTIRIS E. PRATSINIS9A.02LGas-Phase Production of Nanoparticle Composites for Biomedical Applications.8ADAM BOIES (1), Jeffrey Roberts (2), Steven Girshick (1)u(1) University of Minnesota Department of Mechanical Engineering, (2) University of Minnesota Department of Chemistry9A.03BPhotoinduced Coating of Organic Polymers on Silicon Nanoparticles.!STEVEN CALDER, Jeffrey T. Roberts9A.04^Investigation of the Role of Silicon in Gas-Phase Synthesis of Single-walled Carbon Nanotubes.(CHAD UNRAU, Richard Axelbaum, Cynthia Lo% Washington University in Saint Louis9A.057Surface Functionalization of ZnO Aerosol Nanoparticles.#CHI-TUNG CHIANG, Jeffery T. Roberts,Aerosol Physics - Aerosol Charge & Discharge9B.019Development of a Corona Discharge Nanoparticle Generator./CHIH-WEI Lin, Sheng-Hsiu Huang, Chih-Chieh Chen5 National Taiwan University, College of Public Health9B.02*Preliminary Study of a UV Aerosol Charger.LIN LI, Da-Ren Chen` Department of Energy, Environmental & Chemical Engineering, Washington University in St. Louis 9B.03GUnipolar charging of nanoparticles using surface-discharge microplasma.<KOSUKE FUJIMURA , Saho Ohsone , Yoshio Otani , Takafumi Seto Kanazawa University9B.04VEnhancement of Charging Efficiency of a Nanoparticle Charger by Using Sheath Air Flow.OChih-Liang Chien, Chuen-Jinn Tsai, Huei-Lin Chen, Sheng-Chieh Chen, Guan-Yu Lin( National Chiao Tung University, Hsinchu9B.05wThe Effect of Particle Morphology on Unipolar Diffusion Charging of Nanoparticle Agglomerates in the Transition Regime.uWeon Gyu Shin (1), Jing Wang (1), Michael Mertler (2), Bernd Sachweh (2), Heinz Fissan (3), and David Y. H. Pui (1) (1) University of Minnesota, Mineapolis, USA (2) BASF SE, Germany (3) Institute of Energy and Environmental Technology, Germany Health Related Aerosol III9C.01RClimate change impact on air pollution - related human health effects over the US.wEfthimios Tagaris (1), Kuo-Jen Liao(1), Anthony J. DeLucia(2), Leland Deck(3), Praveen Amar(4), Armistead G. Russell(1):(1) School of Civil & Environmental Engineering, Georgia Institute of Technology, Atlanta, GA (2) Department of Surgery, Jame< s H. Quillen College of Medicine, East Tennessee State University (3) Stratus Consulting Inc., Washington, DC (4) Northeast States for Coordinated Air Use Management (NESCAUM), Boston, MA 9C.02vFormation mechanisms of exhaled breath condensate: a discussion of the source of volatile and non-volatile components.ROBY GREENWALD= Rollins School of Public Health at Emory University, Atlanta9C.03An Integrated Approach Toward Understanding the Environmental Fate, Transport, Toxicity and Occupational Health Hazards of Metal and Metal Oxide Nanoparticles.VICKI GRASSIAN University of Iowa, Iowa City 9C.04Nicollet A/B/CSession Letter Conf Day #K. J. MOON(1), J. S. Han(2), Y. D. Hong(1), J. Y. Ahn(1), J. S. Kim(1), S. J. Lee(1), S. S. Cliff(3), K. D. Perry(4), T. A. Cahill(3)!(1) Climate and Air Quality Research Division, National Institute of Environmental Research, (2) Environmental Health Risk Research Division, National Institute of Environmental Research, (3) The DELTA Group, University of California, Davis, (4) Meteorology Department, University of Utah 7G.10~Investigation of Sources of Ambient Submicron Aerosol in the Barcelona Metropolitan Area using AMS mobile and stationary data.CLAUDIA MOHR, Rene Richter, Peter F. DeCarlo, Roberto Chirico, Maarten F. Heringa, Monica Crippa, Andre S. H. Prevot, and Urs Baltensperger5 Paul Scherrer Institute (PSI), Villigen, Switzerland7G.11LSource Apportionment of Primary and Secondary Organic Aerosols in St. Louis.<Jianlin Hu (1), James J. Schauer (2), Michael J. Kleeman (3)(1) Department of Land, Air and Water Resources, University of California, Davis, (2) Department of Civil and Environmental Engineering, University of Wisconsin-Madison, (3) Department of Civil and Environmental Engineering, University of California, Davis7G.12mIntegrating ATOFMS and AMS Mass Spectra in a Receptor Model for an Enhanced Understanding of Aerosol Sources.MAYGAN MCGUIRE (1), Cheol-Heon Jeong (1), Peter Rehbein (1), Joel Corbin (1), Jay G. Slowik (1), Rachel Y.-W. Chang (1), Jonathan P.D. Abbatt (1), Jeff Brook (2), Greg Evans (1)(1) Southern Ontario Centre for Atmospheric Aerosol Research, University of Toronto, (2) Environment Canada, Science and Technology BranchAerosols, Clouds & Climate7H.015Air Pollution with Particulate Matter PM10 and PM2.5.CAFRIM SYLA (1), Kadri Berisha(2), Fisnik Kabashi(2), Agron Veliu(2)(1) University of Prishtina - Kosova, Faculty of Mining and Metallurgy in Mitrovica, Department of Technology and Environment, 40000 Mitrovica, (2)Ministry of Environment and Spatial Planning, 10000, Prishtina7H.02Aerosol optical properties relevant to regional remote sensing of CCN activity and links to their organic mass fraction: Airborne observations over Central Mexico and the US West Coast during MILAGRO/INTEX-B.Y. Shinozuka(1,*), A. D. Clarke(1), P. F. DeCarlo(2,3,**), J. L. Jimenez(2,4), E. J. Dunlea(2), G. C. Roberts(5), J. M. Tomlinson(6), D. R. Collins(6), S. G. Howell(1), V. N. Kapustin(1), C. S. McNaughton(1) and J. Zhou(1)1School of Ocean and Earth Science and Technology, University of Hawaii, Honolulu, HI, USA 2Cooperative Institute for Research in the Environmental Sciences, University of Colorado, Boulder, CO, USA 3Dept. of Atmospheric and Oceanic Sciences, University of Colorado, Boulder, CO, USA 4Dept. of Chemistry and Biochemistry, University of Colorado, Boulder, Colorado, USA 5Center for Atmospheric Sciences, Scripps Institution of Oceanography, La Jolla, CA, USA 6Department of Atmospheric Sciences, Texas A&M University, College Station, TX, USA * now at: National Aeronautics and Space Administration Ames Research Center, MS 245-5, Moffett Field, CA, USA ** now at: Paul Scherrer Institut, CH-5232 Villigen-PSI, Switzerland 7H.03]Scavenging of Atmospheric Trace Gases by Falling Liquid Droplets in Inhomogeneous Atmosphere..Boris Krasovitov, Tov Elperin, Andrew Fominykh"Ben-Gurion University of the Negev7H.04KThe Effects of Vehicular Exhaust on Biogenic Secondary Organic Aerosol CCN.fAKUA ASA-AWUKU (1,2), Gabriella Engelhart (1), Spyros Pandis (1), Neil Donahue (1), Allen Robinson (1)JCarnegie Mellon University (1), University of California  Riverside (2)7H.05_Hygroscopicty measurement of aerosols in Asian continental outflow using humidified tandem DMA.BJONG KIM (1), Sungbo Shim(1), Seong Soo Yum(1), Soon-Chang Yoon(2)3(1) Yonsei University (2) Seoul National University7H.06bJointly retrieving aerosols and thin cirrus using the Multiangle Imaging SpectroRadiometer (MISR).IJEFFREY PIERCE (1), Matt Davis (2), Jennifer Comstock (3), Ralph Kahn (4)(1) Dalhousie University, (2) Science Systems and Applications, Inc., (3) Pacific Northwest National Laboratory, (4) NASA Goddard Space Flight Center7H.077Design and Testing of an Interstitial Particle Sampler.NARASH MOHARRERI(1), Lucas W. Craig(1), Suresh Dhaniyala(1), David C. Rogers(2)(1) Mechanical and Aeronautical Engineering Department, Clarkson University, Potsdam, NY 13699 (2) Earth Observing Laboratory, NCAR/RAF, Broomfield, CO 800217H.08VFormation of Secondary Organic Aerosol through Cloud Processing of Anthropogenic VOCs.JAMES HUTCHINGS, Pierre Herckes Arizona State University7H.09FN-Nitrosodimethylamine (NDMA): a potent carcinogen in clouds and fogs.7H.10Aerosol Light Extinction Measurements by Cavity Attenuated Phase Shift Spectroscopy (CAPS)  Laboratory Validation and First Results from Field Deployments.bPAOLA MASSOLI (1), Paul Kebabian (2), Timothy Onasch (2), Scott Herndon (2), Andrew Freedman (2) p(1) Department of Chemistry, Boston College, Chestnut Hill, Newton, MA (2) Aerodyne Research Inc., Billerica, MA7H.11BEvolution of the organic aerosol component across Northern Europe.W.T. MORGAN (1), J.D. Allan (1), K.N. Bower (1), E.J. Highwood (2), G.R. McMeeking (1), M.J. Northway (2), S.R. Osborne (3), J. Trembath (4), P.I. Williams (1), H. Coe (1)(1) Centre for Atmospheric Science, University of Manchester, UK, (2) Department of Meteorology, University of Reading, UK, (3) Met Office, Exeter, UK (4) Facility for Airborne Atmospheric Measurement, UK. 7H.12dMixing state, CCN activity and droplet growth kinetics of size-resolved CCN in an urban environment.~LUZ TERESA PADRO, Richard H. Moore, Xialou Zhang, Neeraj Rastogi, Wenyan Shi, Mei Zheng, Rodney J. Weber, and Athanasios Nenes7H.13ZCCN Activity and Droplet Growth Kinetics of Alaskan Arctic Haze Aerosol During April 2008.{RICHARD H MOORE (1), Roya Bahreini (2), Ann M. Middlebrook (3), Julie Cozic (2), Charles A. Brock (3), Athanasios Nenes (1)P(1) Georgia Institute of Technology, (2) NOAA, CIRES, Boulder, (3) NOAA, Boulder7H.14The Effect of Marine Biogenic Organic Aerosols on Stratiform Clouds: A 10-Year Global Simulation with Coupled GCM-Aerosol Model.(1) Particle Technology Laboratory, Department of Mechanical and Process Engineering, ETH Zurich, Switzerland (2) Department of Chemical and Biochemical Engineering, Technical University of Denmark, Lyngby, Denmark10B.03`Early Heavy Metal control as a preventing measure for minimizing PCDDs/DFs emission from a MSWI.9EGOITZ PENA, Estibaliz García, Cristina Gutiérrez-Canas1 University of the Basque Country; Bilbao, Spain.10B.04Biodiesel Fuel Filtration.1KYOUNGTAE KIM, David B. Kittelson, David Y.H. PuiHealth Related Aerosol IV10C.01sRelationship Between Chemical Composition and Pulmonary Toxicity of Source-Specific and Ambient Particulate Matter.oSEUNG-HYUN CHO (1, 2, 3), William P. Linak (1), Charly J. King (4), Q. Todd Krantz (2), and M. Ian Gilmour (2) (1) National Risk Management Research Laboratory, U.S. EPA (2) National Health & Environmental Effects Research Laboratory, U.S. EPA (3) ORISE Research Participation Program (4) Arcadis US, Inc.10C.02aOccurrence of Antibiotic-resistant Microorganis< ms in Atmospheric Aerosol of Southwestern Siberia.cALEKSANDR S. SAFATOV, Larisa I. Puchkova, Galina A. Buryak, Irina S. Andreeva, Aleksandr N. SergeevS Federal State Research Institution SRC VB SVector , Koltsovo, Novosibirsk reg.10C.04AAerosol Development of a Sulfur Mustard Inhlation Exposure Model.VWAYLON M. WEBER Mericka R. Lehman Dean A. Kracko Jacob D. McDonald Gary R. Grotendorst8 Lovelace Respiratory Research Institute, Albuquerque NMInstrumentation V10D.01UNanoparticle Collection Efficiency to the Surface of Capillary Pore Membrane Filters.(WILLIAM CYRS, Thomas Peters, Dane Boysen10D.02QA Traceable Calibration Process for Comparing Two Condensation Particle Counters.7MILES OWEN (1), George Mulholland (2), Will Guthrie (3)|(1) US Army Primary Standards Laboratory, Redstone Arsenal (2) University of Maryland at College Park (3) NIST, Gaithersburg10D.03DA Fast Integrate Mobility Spectrometer with Wide Dynamic Size Range. JIAN WANGJ Atmospheric Sciences Division, Brookhaven National Laboratory, Upton, NY,10D.04[Improvement of Engine Exhaust Particle Sizer Spectrometer for Engine Emissions Measurement.tXIAOLIANG WANG (1), Melissa Grose (1), Robert Caldow (1), Jacob Swanson (2), Winthrop Watts (2), David Kittelson (2)>(1) TSI Inc., St Paul (2) University of Minnesota, Minneapolis*Carbonaceous Aerosols in the Atmosphere IV10E.01Contributions of Biogenic and Anthropogenic Hydrocarbons to Secondary Organic Aerosol during 2006 in Research Triangle Park, North Carolina.SJOHN H. OFFENBERG1, Michael Lewandowski1, Mohammed Jaoui2, Tadeusz E. Kleindienst1 1 United States Environmental Protection Agency, National Exposure Research Laboratory, Research Triangle Park, NC 27711. 2 Alion Science and Technology, Box 12313, Research Triangle Park, NC 27709. 10E.02Organic Aerosol Composition using a combined Thermal Desorption Aerosol Gas Chromatograph (TAG) - High Resolution Time-of-Flight Aerosol Mass Spectrometer (HR-ToF-AMS).gBRENT WILLIAMS (1), Jesse Kroll (1,2), John Jayne (1), Douglas Worsnop (1), Nga L. Ng (1), Manjula Canagaratna (1), Joel Kimmel (1), Donna Sueper (1), Ed Fortner (1), William Brooks (1), Leah Williams (1), Paola Massoli (1), Eben Cross (1,3), Adam Ahern (3), Paul Davidovits (3), Sean Kessler (2), Nathan Kreisberg (4), Susanne Hering (4), Allen Goldstein (5)(1) Aerodyne Research Inc., Billerica, MA, (2) Massachusetts Institute of Technology, (3) Boston College (4) Aerosol Dynamics Inc., Berkeley, CA, (5) University of California, Berkeley10E.03rA comparison of Organic Aerosol Components observed in Worldwide Datasets measured with Aerosol Mass Spectrometry.NGA L. NG (1), Manjula R. Canagaratna (1), Qi Zhang (2), Jian Tian (2), Ingrid M. Ulbrich (3), Jose-Luis Jimenez (3), Douglas R. Worsnop (1)(1) Aerodyne Research, Billerica (2) University at Albany, State University of New York, Albany (3) University of Colorado, Boulder10E.04,Aging Chamber Organic Aerosol: A Case Study.iN. M. DONAHUE (1), K. Henry (1), S. N. Pandis (1), J. H. Kroll (2), D. R. Worsnop (3), H. Saathoff (4), K. H. Naumann (4), T. Mentel (5), A Kiendler-Scharr (5), T. Brauers (5), R. Tillmann (5), A. Wahner (5), J. Dommen (6), P. DeCarlo (6), T. Tritscher (6), A. S. H. Prevot (6), U. Baltensperger (6), K. Salow (7), M Hallquist (7), M. Frosch (8), M. Bilde (8)2(1) Carnegie Mellon University, Pittsburgh PA (2) MIT, Cambridge MA (3) Aerodyne, Inc, Billerica MA (4) Forschungszentrum Karlsruhe, Germany (5) Forschungszentrum Jülich, Germany (6) Paul Scherrer Institute, Villigen, Switzerland (7) University of Gothenburg, Sweeden (8) University of Copenhagen, Denmark)Combustion - Biodiesel and Diesel Control10F.01RComprehensive Assessment of the Emissions from the Use of Biodiesel in California.Thomas D. Durbin(1) Bob Okamoto(2) Kent Johnson(1) J. Wayne Miller(1) DAVID R. COCKER III(1) Floyd Vergara(2) Keshav Sahay(2) William Robertson(2) Kwangsam Na(1) Don Chernich(2) Paul Rieger(2) Oliver Chang(2) Yanbo Pang(2) Mark Fuentes(2) Dean Bloudoff(2) Hector Maldonado(2) Jim Guthrie(2) Aubrey Sideco(2) Shaohua Hu(2) Alberto Ayala(2) Norman Y. Kado(2,3) Reiko Kobayashi(3) Christoph F.A. Vogel(4) Thomas M. Cahill(5) Fumio Matsumura(3) and Patrick S. Wong(2,4)(1) University of California, College of Engineering, Center for Environmental Research and Technology (CE-CERT), Riverside, CA 92507 (2) California Air Resources Board (CARB), Sacramento, CA 95814 (3) Department of Environmental Toxicology, University of California, Davis, Davis, CA 95616 (4) Center for Health and the Environment, University of California, Davis, Davis, CA 95616 (5) Department of Integrated Natural Sciences, Arizona State University, West Campus, Phoenix, AZ, 8506910F.02|Characterization of Particle Bound Organic Carbon from Diesel Vehicles Equipped with Advanced Emission Control Technologies.JPayam Pakbin (1) Zhi Ning (1) James J. Shauer (2) Constantinos Sioutas (1)(1) University of Southern California, Department of Civil and Environmental Engineering, 3620 South Vermont Avenue, Los Angeles, CA 90089, USA (2) University of Wisconsin-Madison, Environmental Chemistry and Technology Program, 660 North Park Street, Madison, WI 53706, USA10F.03[Characteristics of Emitted Particulate Matters from Diesel-Powered Vehicle Using Biodiesel.CHEOLSOO LIM (1), Yunsung Lim (1), Jaehyun Lim (2), Choongyeol Seo (3), Sangkyu Kim (1), Hongkyu Kim (1), Hyunmin Kim (1), Taehong Lim (1), Hyunju Ha (1) (1) Transportation Pollution Research Center , (2) Climate Change Research Division and (3) Air Quality Research Division, National Institute of Environmental Research, Korea 10F.04The Effect of Diesel Particulate Filters and Selective Catalytic Reduction - A Predictive Framework for Ultrafine Particle Formation, Toxicity and Chemical Composition.jJORN DINH HERNER, Shaohua Hu, William H. Robertson, Tao Huai, John Collins, Harry Dwyer, and Alberto Ayala California Air Resources BoardDayID Session No. Plenary 1TimeTitle AffiliationsAuthorsRoomTopic;JAMES HOUSE, Gregory Griffin, Pietro Perona, Richard Flagan# California Institute of Technology7I.13DA Multi-Day, Multi-Pollutant Approach to Air Pollution Epidemiology.WILLIAM W WILSON:US Environmental Protection Agency, Research Triangle Park7I.14OA Novel, Low Cost Sampler to Estimate Aerosol Deposition within the Human Lung.-KIRSTEN KOEHLER, John Volckens, Phillip Clark) Colorado State University, Fort Collins7I.15GExhaled breath particles  a biomarker for detection of lung disease?KATHARINA SCHWARZ (1,2), Jens Michael Hohlfeld (1,2), Heike Biller (1), Hubert Lödding (1), Wilhelm Dunkhorst (1), Horst Windt (1), Wolfgang Koch (1)(1) Fraunhofer Institute of Toxicology and Experimental Medicine, Hannover, Germany (2) Hannover Medical School, Hannover, Germany7I.16'Deposition of Diesel Soot in The Lungs. DAVID BRODAYTechnion, Haifa, Israel7I.17<Generation of Nanoparticles with a Nebulizer-Cyclone System.dMAURA SHEEHAN (1), Thomas Peters (2), Lorezo Cena (2), Patrick O'Shaughnessy (2), Robert Gussman (3)o(1) West Chester University, West Chester, PA, (2) University of Iowa, Iowa City, IA, (3) BGI Inc., Waltham, MA7I.18OCharacterization of a 2007-Compliant On-Road Diesel Inhalation Exposure System.bJACOB D. MCDONALD, Tom Holmes1, Mark Gauna1, Judith Chow2, Barbara Zielinska2 and Joe L. Mauderly1I(1) Lovelace Respiratory Research Institute (2) Desert Research Institute7I.19[Germicidal UV Sensitivity of Vegetative Bacteria in Aerosols and on Contaminated Surfaces.>Bradley King (1), JANA KESAVAN (1,2), Jose-Luis Sagripanti (2)(1) Johns Hopkins Bloomberg School of Public Health, Baltimore, MD (2) US Army Edgewood Chemical Biological Center, Aberdeen Proving Ground, MD7I.20uInvestigation of physico-chemical and toxicological properties of particles emitted from different welding processes.H. Kaminski (1), A.C. < John (1), C. ASBACH (1), M. Wiemann (2), J. Bruch (2), C. Eisenbeis (3), R. Winkler (3), M. Gube (4), P. Brand (4), T. Kraus (4), T.A.J. Kuhlbusch (1) L(1) Institute of Energy and Environmental Technology (IUTA), Air Quality & Sustainable Nanotechnology, Duisburg, Germany (2) IBE GmbH, Institute for Lung Health, Marl, Germany (3) Welding Training and Research Institute (SLV), Duisburg, Germany (4) Institute for Occupational Medicine, RWTH Aachen University, Aachen, Germany 7I.21MA Nanoparticle Dispersion Method for In-vitro and In-vivo Nanotoxicity Study.SEONG CHAN KIM (1), Da-Ren Chen (2), Chaolong Qi (3), David Y.H. Pui (1), Robert Gelein (4), Jacob Finkelstein (4), Gunter Oberdorster (4)l(1) University of Minnesota (2) Washington University in St, Louis (3) NIOSH, OH (4) University of Rochester7I.22Investigation into the Impact of Air Pressure Driven Drug Dispensing Machines on the Environment of Pharmacy Workers: McKesson/Parata Max and McKesson/Parata RDS, Personal Exposure Monitoring.0DAVID ALBURTY, Pamela Murowchick, Ann Packingham AlburtyLab, Inc.7I.23TEvaluating the Potential for Nanoparticle Generation During Nanocomposite Recycling.PETER C. RAYNOR (1), Jessica A. Ingraham (1), Jeffrey S. Spangenberger (2), James B. D'Arcy (3), Jean M. Dasch (3), Bernard A. Olson (1)(1) University of Minnesota, Minneapolis, (2) Argonne National Laboratory, (3) United States Council for Automotive Research LLC, Southfield, MI7I.24Bioavailable Metal Speciation and Surface Redox Capacity: Assessing Oxidative Stress Due to Co-exposure to Metal Oxide and Elemental Carbon Particles.3BING GUO, Rema Zebda, Christie Sayes, Stephen Drake7I.25Quantification of Hydroxyl Radical Formation in a Surrogate Lung Fluid Containing Dissolved Transition Metals and/or Redox-Active Organic Species. JESSICA CHARRIER, Cort Anastasio7I.26]Ultra Fine Particles from Diesel Engines Induce Vascular Oxidative Stress via JNK Activation.FRongsong LI (1), Zhi NING(2), Constantinos SIOUTAS(2), Tzung HSIAI (1)(1) Biomedical Engineering and Cardiovascular Medicine, University of Southern California (2) Civil and Environmental Engineering, University of Southern California7I.277Particle-Associated Systemic Microvascular Dysfunction.BEAN T CHEN (1), Jared L Cumpston (1), Amy M Moseley (1), Samuel Stone (1), Diane Schwegler-Berry (1), Dale W Porter (1,2), Ann F Hubbs (1), David G Frazer (1,2), Vincent Castranova (1), Timothy R Nurkiewicz (2)C(1) CDC/NIOSH, Morgantown, (2) West Virginia University, Morgantown7I.28WThe Fate of Accidentally Released Nanoparticles into a Simulated Workplace Environment.zNICHOLAS STANLEY (1), David Y.H. Pui (1), Thomas H. Kuehn (1), Christof Asbach (2), Heinz Fissan (2), Thomas Kuhlbusch (2)q(1) University of Minnesota, Minneapolis, (2) Institute of Energy and Environmental Technology, Duisburg, Germany7I.29ARecent Aerosol Exposure Episodes in China: a Tale of Three Towns.LTAI CHAN (1), Wendy Song (1), Kebin He (1), Fumo Yang (2), Xiaochuan Pan (3)(1) Tsinghua University, Beijing (2) Graduate University of the Chinese Academy of Sciences, Beijing (3) Beijing University Health Sciences Center, Beijing7I.30@Nanoparticle Production from the Nebulization of Utrapure Water.)PATRICK T O'SHAUGHNESSY, Daniel Ellickson" University of Iowa, Iowa City, IA7I.31jAge, gender, and social status as modifiers of the effects of fine particles on mortality in Seoul, Korea.^Jong-Bae Heo (1), Ok-Hee Yi (2), Bo-Ra Choi (1), Kye-Sun Kim (1), Ho Kim (2), Seung-Muk Yi (1)(1) Department of Environmental Health, School of Public Health, Seoul National University, (2) Department of Public Health, School of Public Health, Seoul National University7I.32\Effects of Nostril Inlet Angle on the Airflow and Aerosol Deposition in Human Nasal Airways.JONGWON KIM, Jinxiang Xi #University of Arkansas, Little Rock7I.33(Genotoxicity of size segregated aerosol.2JIRI KROUZEK (1), Jan Topinka (2), Jan Hovorka (1)V(1) Charles University, Prague, (2) Institute of Experimental Medicine, Czech Republic7I.34IExperimental Measurements of Charged Particle Deposition in Lung Airways.NKUANG-NAN CHANG (1), Sheng-Hsiu Huang (1), Yu-Mei Kuo (2), Chih-Chieh Chen (1)(1) National Taiwan University, College of Public Health, Taipei, Taiwan (2) Chuang-Hwa University of Medical Technology, Tainan, Taiwan7I.35?Monitoring air contaminants during carbon nanofiber production./Birch M.E., EVANS D.E., Ku B-K, Ruda-Eberenz T.z Division of Applied Research and Technology The National Institute for Occupational Safety and Health Cincinnati OH, USA 7I.36^Airborne Contaminants in a Carbon Nanofiber Manufacturing Facility: Direct Reading Monitoring..EVANS D.E., Ku B.K., Birch M.E. and Dunn K.H. { Division of Applied Research and Technology The National Institute for Occupational Safety and Health Cincinnati OH, USA. 7I.37HInteraction of TiO2 Nanoparticles with Macrophages in the Immune System.7I.387Deposition of Fibrous Material in A Human Nasal Airway.VKevin T. Shanley (1), GOODARZ AHMADI (1), Philip K. Hopke (2), and Yung-Sung Cheng (3)(1) Department of Mechanical and Aeronautical Engineering, Clarkson University, Potsdam New York, USA (2) Department of Chemical and Biomolecular Engineering, Clarkson University, Potsdam, New York, USA (3) Lovelace Respiratory Research Laboratory, Albuquerque, New Mexico, USA7I.39OCFD Modeling of nanoparticle dispersion in a workplace upon accidental release.XChristof Asbach, Uwe Rating, Till van der Zwaag, Heinz Fissan, and Thomas A.J. Kuhlbusch7I.40]Allergenic Potency of Aspergillus fumigatus Conidia is Influenced by Sporulation Temperature.9Low, Swee Yang (1), Yao, Maosheng (2), PECCIA, JORDAN (1)(1) Department of Chemical Engineering, Environmental Engineering Program, Yale University, New Haven, CT 06520-6268 (2) College of Environmental Sciences and Engineering, Peking University, Beijing 100871, People "!s Republic of China7I.41DChemical aging of secondhand smoke: Increased risks for non-smokers?MOHAMAD SLEIMAN (1), Hugo Destaillats (1), James Pankow (2), Peyton Jacobs (3), Musahid Ahmed (1), Kevin Wilson (1), Lara Gundel (1)u(1) Lawrence Berkeley National Laboratory, (2) Portland State University, (3) University of California, San Francisco7I.42GDaily mortality impacts of Asian dust in Seoul, Korea during 1991-2005.^DAE-GEUN LEE (1)(2), Seung-Muk Yi (1), Young-Jean Choi (2), Jiyoung Kim (2), Seung-Bum Kim (2)(1) Department of Environmental Health, School of Public Health, Seoul National University, Seoul 110-799, Republic of Korea (2) National Institute of Meteorological Research, Korea Meteorological Administration, Seoul 156-720, Republic of Korea2Symposium: Biodefense - Protection/Decontamination8A.01PCollective Protection Technology Testing of Bioaerosol Air Purification Devices.Karin K. Foarde (1), James T. Hanley (1), Douglas W. VanOsdell (1), Keith Esch (1), Amy Maxwell (2) and Christopher Karwacki (2) G(1)RTI International, (2) US Army Edgewood Chemical Biological Center 8A.02zDevelopment of device for consistent and controlled delivery of aerosolized droplets containing viral agents onto surface.WMyung-Heui Woo (1), Yu-Mei Hsu (2), Chang-Yu Wu (1), Brian Heimbuch (3), Joe Wander (4)(1) University of Florida, Department of Environmental Engineering Sciences (2) Wood Buffalo Environmental Association (3) Applied Research Associates, Tyndall Air Force Base (4) Air Force Research Laboratory, Tyndall Air Force Base 8A.03CBio-Aerosol Test Methods for Loading Surfaces with Influenza Virus.BRIAN HEIMBUCH (1), William Wallace (1), Kimberly Kinney (1), Myung-Huei Woo (2), Chang Yu Wu (2), April Lumley (1), Joe Wander (3) (1) Applied Research Associates, Tyndall Air Force Base, Florida (2) University of Florida, Department of Environment<al Engineering Sciences (3) Air Force Research Laboratory, Tyndall Air Force Base, Florida 8A.04MNanofiber Filtration Coupled with Microwave Radiation for Bioaerosol Removal.}BRIAN DAMIT (1), Qi Zhang (1), Myung Heui Woo (1), James Welch (2), Hyoungjun Park (3), Chang-Yu Wu (1), Wolfgang Sigmund (3)(1) University of Florida, Department of Environmental Engineering Sciences, (2) University of Florida, Department of Biology, (3) University of Florida, Department of Materials Science and Engineering8A.05KSurvival of Bacillus subtilis Endospores in an Air Flow with Axial Heating.SERGEY A. GRINSHPUN (1), Atin Adhikari (1), Chunlei Li (1), Tiina Reponen (1), Mirko Schoenitz (2), Edward Dreizin (2), Salil Mohan (3), Mikhaylo Trunov (3)(1) University of Cincinnati, Cincinnati, OH; (2) New Jersey Institute of Technologies, Newark, NJ; (3) Reactive Metals, Inc., Newark, NJ8A.068Inactivation of subway bioaerosols using thermal energy.+BYUNG UK LEE, Gi Byung Hwang, Hyun Geon Kim, Konkuk University, Seoul, Republic of Korea8B.01*Homogeneous Nucleation with Magic Numbers.%STEVEN L. GIRSHICK and Pulkit Agarwal8B.02&On the Mobility of Fractal Aggregates.CHRISTOPHER SORENSENKansas State University8B.03bAerosol Flow in Microscale: Theory, Experiment, and Application to Direct-Write Micro Fabrication.ISKANDER AKHATOV (1), Justin Hoey (1), Drew Thompson (1), Artur Lutfurakhmanov (1), Zakaria Mahmud (1), Orven Swenson (1), Douglas Schulz (1), Alexander Osiptsov (2)\(1) North Dakota State University, Fargo, ND, (2) Lomonosov Moscow State University, Russia 8B.04=Dynamic Balancing for Dust Cloud Experiments in Microgravity.ANDREI VEDERNIKOVOMicrogravity Research Center, Université Libre de Bruxelles, Brussels, Belgium8B.05KA Study to Simulate the Penetration of Dirty Bomb Fragments into Buildings.IRONALD MOSLEY (1), Dale Greenwell (1), Jacky Rosati (1), Bobby Sharpe (2)<(1) U. S. EPA, RTP, (2) Arcadis Geraghty & Miller Inc., RTP8B.06?Effect of Nanofiber Layer on Dust Cake Formation and Structure.%Zhun Liu, Jing Wang, David Y.H. 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