| Tuesday 11 September 2007 | 13:45 - 15:45 |
Poster
Area |
| Poster Session Part I |
| Aerosol Chemistry |
| The effect of Saharan dust outbreaks on particulate sulfate and nitrate levels in southeast Spain | |
| E. Yubero, N. Galindo, J. Nicolás, S. Caballero, C. Pastor, and J. Crespo |
| Size-segregated analysis of PM10 at a tandem rural-urban site combination | |
| J. Gietl, T. Tritscher, and O. Klemm |
| Secondary organic aerosol formation from plant emissions: Overview of the Jülich Plant chamber experiments | |
| A. Kiendler-Scharr, T. Hohaus, E. Kleist, M. Miebach, R. Tillmann, R. Uerlings, R. Fisseha, P. Griffiths, Y. Rudich, E. Dinar, J. Wildt, and T. Mentel |
| Distributions and health risks of polycyclic aromatic hydrocarbons (PAHs) in atmospheric aerosols of the city of Chania (Greece) | |
| A. Pafitis, N. Pasadakis, I. Kopanakis, and E. Katsivela |
| Airborne copper, nickel and lead in northern Finland – Effects of the Kola metallurgical industry | |
| U. Makkonen, J. Paatero, K. Pyy, and M. Kulmala |
| TSP and heavy metals measurements in the roadside environment of the coastal city of Chania (Greece) | |
| V. Voudouri, N. Lydakis-Simantiris, D. Pentari, and E. Katsivela |
| Modelling of the formation of metal oxide aerosols | |
| I. Alxneit and H.R. Tschudi |
| Polycyclic aromatic hydrocarbons and size distributions in Tehran, Iran | |
F. Halek, M. Hashtroudi, and A. Kavousi |
| SPACCIM model studies of the multiphase chemistry processing of tropospheric aerosols | |
| A. Tilgner, R. Wolke, and H. Herrmann |
| Metal distribution from gasoline-fueled engine | |
| Y.F. Wang, H.R. Chao, L.C. Wang, H.H. Yang, and L.T. Hsieh |
| Characterisation, diel variation and mass size distributions of a-pinene oxidation products in ambient aerosol from K-puszta, Hungary | |
| I. Kourtchev, M. Claeys, R. Szmigielski, P. Van der Veken, R. Vermeylen, W. Maenhaut, M. Jaoui, T.E. Kleindienst, M. Lewandowski, J.H. Offenberg, and E.O. Edney |
| Aerosol formation from isoprene | |
| B. Verheggen, A. Metzger, J. Duplissy, J. Dommen, E. Weingartner, A.S.H. Prevot, and U. Baltensperger |
| Identification of secondary inorganic and organic aerosol components in urban particulate matter samples | |
| A. Piazzalunga, P. Fermo, C. Rigamonti, R. Vecchi, G. Valli, and V. Bernardoni |
| Examples of SOA analysis by mass spectrometry from the PSI smog chamber | |
| J. Dommen, A. Metzger, A. Gascho, K.Gaeggeler, M.R. Alfarra, A.S.H. Prevot, U. Baltensperger, M. Kalberer, D. Gross, and A. Brunner |
| Raman characterization of double salt formation from crystallization of mixed ammonium sulfate and ammonium nitrate particles | |
| T.Y. Ling and C.K. Chan |
| Effects of the wildfires in August 2006 on the air quality in south-eastern Finland | |
| U. Makkonen, P.Anttila, H.Hellén, and M. Ferm |
| Evaporation of multicomponent droplets | |
| I.K. Koponen, I. Riipinen, M. Kulmala, G. Frank, and M. Bilde |
| Ion composition in submicron arosols in Helsinki area | |
| K. Teinilä, M. Aurela, H. Timonen, S. Kuokka, S. Saarikoski, K. Saarnio, O. Tolonen-Kivimäki, and R. Hillamo |
| Source contribution to high PM10 episodes in a residential area in the vicinity of two cement plants | |
| A. Carratala, E. Yubero, M. Santacatalina, J.F.Nicolas, and J. Crespo |
| Air concentrations of dioxins, PAHs and metals near two cement plants | |
| J. Conesa, A. Gálvez, M. Santacatalina, and A. Carratalá |
| Seasonal dependence of polar and non-polar organic compounds in aerosols in the atmosphere of a coruna city (NW Spain) | |
| D. García-Gacio, M. Piñeiro-Iglesias, E. Concha-Graña, P. López-Mahía, S. Muniategui-Lorenzo, and D. Prada-Rodríguez |
| Aerosol chemistry, chemical mass closure, and aerosol sources at two sites in Tanzania | |
| S. Mkoma, W. Wang, X. Chi, N. Raes, and W. Maenhaut |
| NMR Functional group analysis extended to carboxylic acids and ketones providing an insight into chemical ageing of SOA | |
| F. Moretti, E. Tagliavini, S. Decesari, M.C. Facchini, and S. Fuzzi |
| Phase changes during hygroscopic cycles in polyethylene glycol 400/ammonium sulfate system | |
| G. Ciobanu, C. Marcolli, U.K. Krieger, U. Weers, and T. Peter |
| Investigating the role of ammonia in atmospheric nucleation using quantum chemistry | |
| T. Kurtén, L. Torpo, H. Vehkamäki, M.R. Sundberg, K. Laasonen, V.-M. Kerminen, M. Noppel, M. Salonen, and M. Kulmala |
| On the beneficial effect of near-waterfall environment | |
| T.-E. Parts and A. Luts |
| Arsenic species levels of PM10 and PM2.5 in urban monitoring station (Huelva, SW Spain) | |
| A.M. Sánchez de la Campa, J.D. de la Rosa, D. Sánchez Rodas, V. Oliveira, A. Alastuey, and X. Quero |
| Polycyclic aromatic hydrocarbon in suspended particulate matter in southeastern Spain | |
| J. Gil-Moltó, M. Varea, N. Galindo, S. Caballero, R. Esclapez, C. Pastor, and J. Crespo |
| Dynamics of secondary organic aerosol from the ozonolysis of terpenes and isoprene: Results from aerosol chamber experiments and model analysis | |
| H. Saathoff, K.-H. Naumann, O. Möhler, A. Kiendler-Scharr, T. Mentel, R. Tillmann, Å. M. Jonsson, M. Hallquist, and U. Schurath |
| Aerosol catalysis: Size effects and metal support interactions on Pd nanoparticles | |
| F. Bacle, M. Seipenbusch, and G. Kasper |
| Influence of different sample preparations on the determined concentrations of selected trace metals in atmospheric particles | |
| H. Radic, J. Turšic, M. Kovacevic, and M. Veber |
| Effects of potassium nitrate on the polymorphic transformations of ammonium nitrate particles | |
| H.B. Wu, M.N. Chan, and C.K. Chan |
| Characterization of residual lignin polymers in particulate matter by LC-MS | |
| E. Bolzacchini, L. Ferrero, B. Ferrini, Z. Lazzati, M. Orlandi, C. Lo Porto, G. Perrone, G. Sangiorgi, S. Petraccone, and L. Zoia |
| Determination of oxygenated, nitrated and native polycyclic aromatic hydrocarbons (PAH) in aerosols using different, liquid chromatographic based methods | |
| J. Lintelmann, K. Fischer, M. Heil-Franca, and G. Matuschek |
| Optimization of high-resolution ICP-MS methods for determination of the “soluble” fraction of trace-metals in aerosol samples | |
| F. Rugi, S. Becagli, E. Castellano, M. Chiari, F. Lucarelli, F. Marino, S. Nava, M. Severi, R. Traversi, and R. Udisti |
| Aerosol Instrumentation |
| An experimental study on relation of heterogeneous and homogeneous condensations in condensation aerosol generation | |
| Z. Zhang, L. Chen, and F. Jiang |
| Improving the detection efficiency of a condensation particle counter by means of pulse height analysis technique | |
| M. Sipilä, P.P. Aalto, and M. Kulmala |
| Configuration of air filters based on the constructal theory | |
| A.F. Miguel, A.H. Reis, and A. Bejan |
| Characterization of specific vertical aerosol fluxes by turbulent flux measurement and single particle mass spectrometry for micro-meteorological analysis | |
| E. Gelhausen, K.-P. Hinz, B. Spengler, A. Schmidt, and O. Klemm |
| Application of the method of Laser Doppler anemometry for aspiration measurement characteristics of the process of aerosol aspiration | |
| G.N. Lipatov and M.A. Yugov |
| Diffusion of charged particles in a DMA with inclined electric field | |
| J. Salm and U. Hõrrak |
| A digital in-line holographic microscope (DIHM) for ice crystals | |
| P. Amsler, O. Stetzer, and U. Lohmann |
| Development of a thermal desorption chemical ionization ion trap mass spectrometer for the chemical characterization of ultrafine aerosol | |
| A. Held, J. Rathbone, and J. Smith |
| Numerical and experimental study on particle collection efficiency of polyurethane foam impators | |
| C.-H. Huang |
| Design and performance evaluation of a three-stage impactor for rapid bioaerosol detection by ATP bioluminescence | |
| K.Y. Yoon, D. Park, J.H. Byeon, J. Hwang, J.H. Ji, and G.N. Bae |
| Formation of thick silver lines on a PET (polyethylene terephthalate) film patterned by a combined process of electrohydrodynamic printing and electroless deposition | |
| S.Y. Kim, J.H. Byeon, and J. Hwang |
| Photophoretic migration of monodispers aerosols | |
| C. Kykal, C. Haisch, and R. Niessner |
| Pressure controlled gas-to-gas humidification of HTDMAs | |
| E. Nilsson, E. Swietlicki, and D. Collins |
| Instrument characterization and first field test of the portable ice nucleation chamber PINC | |
| B. Sierau, O. Stetzer, and U. Lohmann |
| Analysis and calibration of a small cyclone at high flow rates | |
| J.M. Fernández-Díaz, I.A. SanJuan, M.A. Rodríguez-Braña, and M. Domat |
| Quality factors for the optimisation of electrical mobility based particle sizers | |
| J.M. Fernández-Díaz, M. Domat, M.A. Rodríguez-Braña, and I.A. SanJuan |
| Study of PM morphology using scanning electron microscopy | |
| R. Licbinsky, V. Adamec, J. Huzlik, and M. Schwarzova |
| Theory of optical differential mobility analyzer | |
| S.B.Kim, D.K. Song, and S.S. Kim |
| Calibration of a differential mobility spectrometer | |
| J.P.R. Symonds and K.St.J. Reavell |
| Generation of standard aerosols by electrical separation in a wide size range | |
| J. Uin, A. Mirme, S. Mirme, and E. Tamm |
| Design and performance evaluation of a new non-collective electrical aerosol sensor | |
| K. Janka, V. Niemelä, E. Lamminen, J. Keskinen, A. Rostedt, and M. Lemmetty |
| A method for measuring surface area concentration of ultrafine particles | |
| J. Wie, E. Kruis, and H. Fissan |
| Design and experimental evaluation of the dual wavelength optical particle spectrometer | |
| P. Gál, A. Nagy, A. Czitrovszky, and W. Szymanski |
| Design and evaluation of the KS-220 and KS-222 cascade impactors developed for PM10A/10B--> PM2.5A/2.5B--> PM1A/1B sampling | |
| A. Nagy, I. Kálmán, and C. Kálmán |
| Modelling Ag-particle activation and growth in TSI CPC 3785 | |
| F. Stratmann, T. Petäjä, and M. Kulmala |
| A new conception for environmental measurement of ultrafine particles | |
| A. Zschoppe, A. Rudolph, R. Caldow, B. Wehner, and L. Hillemann |
| The construction of an optical particle counter with sub- and super-micron counting capability | |
| R.J. Greaney, O. Ryan, C.D. O’Dowd, and S.G. Jennings |
| Design of the Ice Optical Detector (IODE) for the Zurich Ice Nucleation Chamber (ZINC) | |
| M. Nicolet, O. Stetzer, and U. Lohmann |
| An experiment on performance evaluation of particle collection and gas removal of an air washer system for semiconductor manufacturing clean rooms | |
| S.-T. Park, K.-H. Yoo, K.-E. Tae, and S.-W. Son |
| Distortion of the SMPS size dirtribution associated with the diffusion broadening of the DMA transfer function | |
| A. Mamakos, L. Ntziachristos, and Z. Samaras |
| Improved inversion method for the scanning mobility particle sizer | |
| A. Mamakos, L. Ntziachristos, and Z. Samaras |
| Counting particle measurement within the size range from soot to pollen | |
| M. Schmidt, S. Schütz, and L. Mölter |
| The new UFP 330: Comparison with a DMPS for ambient aerosols | |
| B. Wehner, T. Tuch, A. Wiedensohler, A. Zschoppe, L. Hillemann, and H. Gerwig |
| Aerosol Modeling |
| Simulation of aerosol dynamics in forest fires | |
| A.E. Aloyan and V.O. Arutyunyan |
| Influence of car induced turbulence on PM dispersion along urban traffic paths | |
| J. Pospisil and M. Jicha |
| An improved model for heterogeneous nucleation | |
| A.Määttänen, H. Vehkamäki, A. Lauri, I. Napari, P.E. Wagner, and M. Kulmala |
| Two-component heterogeneous nucleation in the Martian atmosphere | |
| A.Määttänen, H. Vehkamäki, A. Lauri, I. Napari, and M. Kulmala |
| Evaporation and condensation of succinic acid and water: Model intercomparison | |
| J. Voigtländer, I. Riipinen, M. Kulmala, and F. Stratmann |
| A numerical study of calm air sampling | |
| S.J. Dunnett and X. Wen |
| Mass accommodation coefficient of water: Combined analysis of experimental data and computational fluid dynamics results | |
| J. Voigtländer, F. Stratmann, D. Niedermeier, and H. Wex |
| Aerosol model development for calculation of aerosol extinction in the coastal atmosphere surface layer | |
| G.A. Kaloshin |
| Estimating cloud droplet number concentration with particle number-to-volume concentration ratio | |
| N. Kivekäs, V.-M. Kerminen, T. Anttila, H. Korhonen, M. Komppula, and H. Lihavainen |
| Deposition of submicron aerosol on spruce needles; wind tunnel measurements | |
| K. Lamprechtová and J. Hovorka |
| Mathematical modelling of heat transport in aerosol systems with particles of complex geometry | |
| L.A. Uvarova |
| Experimental characterization and modelling of soot primary particles emitted by a CFM56 commercial aircraft engine | |
| D. Delhaye, D. Ferry, F. Moulin, S. Picaud, E. Ruiz, B. Demirdjian, P.N.M. Hoang, and J. Suzanne |
| An expression of particle dry deposition velocity for polydispersed particle using the moment method | |
| S.Y. Bae, C.H. Jung, and Y.P. Kim |
| Modeling and calculation of fractional efficiency of tangential flow cyclones | |
| Y. Ben-Shmuel and M. Shapiro |
| Source apportionment of submicron organic aerosol at an urban background site by positive matrix factorization (PMF) applied to aerosol mass spectra | |
| V.A. Lanz, M.R. Alfarra, U. Baltensperger, B. Buchmann, C. Hüglin, and A.S.H. Prévôt |
| OIO nucleation simulations | |
| H. Vuollekoski, M. Kulmala, V.-M. Kerminen, S.-L. Sihto, I. Riipinen, H. Korhonen |
| High PM1 and ozone levels in the Cadiz Gulf during the Galicia fires of summer 2006 | |
| J.D. de la Rosa, A.F. Stein, Y. González-Castanedo, A. Alastuey, E. Mantilla, J. Contreras, X. Querol, and A. Sánchez de la Campa |
| Modeling and measurements of high arsenic levels in Southwestern Spain | |
| A.F. Stein, J.D. de la Rosa, A.M Sánchez de la Campa, X. Querol, and A. Alastuey |
| Modelling study on the connection of sulphuric acid and new particle formation | |
| S.-L. Sihto, H. Vuollekoski, J. Leppä, I. Riipinen, V.-M. Kerminen, H. Korhonen, K.E.J. Lehtinen, and M. Kulmala |
| A combined method for data processing in an elastic backscatter Lidar | |
| D. Nicolae, C. Talianu, A. Nemuc, E. Carstea, L. Belegante, and C. Radu |
| Modeling of atmospheric aerosol processing with consideration of non-ideal solutions and complex multiphase chemistry | |
| R. Wolke, J. Zoboki, A. Tilgner, and H. Herrmann |
| Evaluation of Brownian motion calculation using Discrete Phase Model of FLUENT | |
| D.K. Song and S. Dhaniyala |
| Numerical study of dynamics of growing droplets in Kelvin spectrometer | |
| S.K. Zaripov, R.S. Galeev, and W. Holländer |
| How reduction policies on emission scenarios can affect air quality in the Tuscany region | |
| C. Grassi and S. Verrilli |
| PBMR safety analysis: Aerosol modelling for Generation IV Nuclear Plants | |
| L. Naicker and A. Ramlakan |
| Sensitivity of urban and rural ammonium-nitrate particulate matter to precursor emissions in Southern Germany | |
| U. Uhrner, S. Drechsler, R. Wolke, P.J. Sturm, and A. Wiedensohler |
| Is the thermodynamic equilibrium an adequate approach for representing fine (PM1, PM2.5) inorganic aerosol behavior? ISORROPIA-II simulations under 2005 winter Mexico City conditions | |
| M. Moya, C. Fountoukis, A. Nenes, and E. Matías |
| Modelling on H2SO4-H2O particle formation and growth in the diluting diesel exhaust | |
| L. Pirjola, F. Arnold, T. Schuck, J. Keskinen, T. Rönkkö, T. Lähde, K. Hämeri, A. Sorokin , and D. Rothe |
| Application of mesoscale WRF-CHEM model for researching of vertical and horizontal inhomogeneous structure of pullutant concentration in the East Europe region | |
| D.P. Zinin, G.M. Teptin, and O.G. Khoutorova |
| Modelling of workplace nanoparticle exposure | |
| C. Asbach, H. Kaminski, U. Rating, H. Fissan, and T.A.J. Kuhlbusch |
| Particle deposition on a semiconductor wafer larger than 100 mm | |
| K.-H. Lee, G.-S. Song, K.-H. Yoo, and S.-K. Chae |
| Mixed effects regression model in the analysis of 50nm particle number concentration | |
| S. Mikkonen, K.E.J. Lehtinen, A. Hamed, J. Joutsensaari, and A. Laaksonen |
| Aerosol Standards |
| Computational investigation of particle losses in random porous structures | |
| A. Serrenho, A.F. Miguel, and A.H. Reis |
| Influence of the stains on the Millikan-type plate electrode in the absolute size measurement of particle size standards by the electro-gravitational aerosol balance | |
| K. Takahata and K. Ehara |
| The EU project NANOTRANSPORT | |
| T. Rettenmoser, C. Gerhart, and H. Grimm |
| Atmospheric Aerosols - Nucleation |
| Particle formation events observed at the King Sejong station, Antarctica | |
| Y.J. Yoon, B.Y. Lee, T.J. Choi, T.G. Seo, and S.S. Yum |
| Formation of particles in aircraft plumes using a multitrajectory box model and LES | |
| X. Vancassel, E. Maglaras, and E. Ruiz |
| Binary homogenous nucleation of sulfuric acid and water mixture: Experimental device and setup | |
| D. Brus, A.-P. Hyvärinen, H. Lihavainen, Y. Viisanen, and M. Kulmala |
| Air Ion Spectrometer measurements of marine/coastal secondary particle formation | |
| M. Ehn, T. Petäjä, H. Vuollekoski, P. Aalto, M. Vana, G. de Leeuw, D. Ceburnis, C. D. O´Dowd, and M. Kulmala |
| Observations of secondary particle formation above the North Atlantic | |
| M. Ehn, T. Petäjä, P. Aalto, G. de Leeuw, C. D. O´Dowd, and M. Kulmala |
| New particle formation above a sub-arctic wetland-forest mosaic: analysis of high growth rates | |
| B. Svenningsson, A. Arneth, S. Hayward, T. Holst, A. Massling, E. Swietlicki, A. Hirsikko, M. Vana, T. Bergman, I. Riipinen, M. Dal Maso, T. Hussein, and M. Kulmala |
| Aerosol particle and air ion number size distributions along the Trans-Siberian railroad | |
| E. Vartiainen, M. Kulmala, M. Ehn, T. Petäjä, S. Kuokka, R. Hillamo, , A.I. Skorokhod, I.B. Belikov, N.F. Elansky, and V.-M. Kerminen |
| Aerosol particle and ion measurements in Queen Maud Land, Antarctica | |
| E. Vartiainen, M. Ehn, P.P. Aalto, A. Frey, A. Virkkula, R. Hillamo, A. Arneth, and M. Kulmala |
| Presence of cluster ions in low ambient temperatures | |
| A.-K. Viitanen, T. Mattila, and J.M. Mäkelä |
| A comparison of new particle formation events in Eastern Germany and in Northern East Italy based on a three-year-analysis | |
| A.Hamed, B.Wehner, W.Birmili, A.Wiedensohler, F. Cavalli, M.C. Facchini, J. Joutsensaari, and A. Laaksonen |
| Nucleation events in Melpitz, Germany, as a source of cloud condensation nuclei | |
| A. Hamed, B. Wehner, W. Birmili, T. Tuch, G. Spindler, A. Wiedensohler, J. Joutsensaari, and A. Laaksonen |
| Characterisation of air ions during a cruise over the Eastern Atlantic and Southern Ocean | |
| M. Vana, A. Virkkula, A. Hirsikko, P. Aalto, M. Kulmala, and R. Hillamo |
| Investigating ion-induced nucleation with an Ion-DMPS | |
| S. Gagné, T. Petäjä, L. Laakso, V.-M. Kerminen, P.P. Aalto, and M. Kulmala |
| Overview of nucleation events based on air ion measurements at Tahkuse observatory | |
| K. Komsaare, D. Siingh, A. Mirme, and U. Hõrrak |
| Atmospheric particle formation rates below 3 nm | |
| I. Riipinen, H.E. Manninen, T. Nieminen, M. Sipilä, T. Petäjä and, M. Kulmala |
| The effect of clouds on ion cluster concentrations and new particle formation at 1465 m. a.s.l. | |
| H.Venzac, K. Sellegri, and P. Laj |
| One-year observations of new particle formation at two stations in Central Siberia | |
| M. Dal Maso, L. Sogacheva, A. Vlasov, A. Staroverova, A. Lushnikov, M. Anisimov, V.A. Zagainov T.V. Khodzer, V.A. Obolkin, Yu.S. Lyubovtseva, I. Riipinen, and M. Kulmala |
| Aerosol composition after a clean air nucleation event in Hyytiälä, Finland | |
| T. Raatikainen, P. Vaattovaara, J. Rautiainen, P. Tiitta, A. Laaksonen, and D. Worsnop |
| Newly-formed nucleation mode particles composition change at boral forest atmosphere | |
| P. Vaattovaara, T. Petäjä, D.R. Worsnop, and A. Laaksonen |
| Fine and ultrafine aerosol in southwestern Australia, influence of land surface, land use and vegetation on size and number distribution | |
| W. Junkermann, J. Hacker, T. Lyons, and U. Nair |
| Atmospheric fronts, cloudiness and aerosol particle formation in Hyytiälä, Southern Finland | |
| L. Sogacheva , L. Saukkonen, G. de Leeuw, and M. Kulmala |
| Atmospheric Aerosols - Urban Aerosols |
| A gas/aerosol pollutant study in urban and rural atmosphere of Rome during the ITALIA campaigns. Monitoring and characterization | |
| P. Di Filippo, C. Riccardi, D. Pomata, F. Incoronato, S. Spicaglia, A. Cecinato, and C. Balducci |
| An inter-year climatology of urban aerosol and minor gas impurities in the east European region of Russia | |
| O.G. Khutorova and G.M. Teptin |
| Urban particle number size distributions of ambient-state and non-volatile aerosols in Augsburg, Germany | |
| K. Heinke, W. Birmili, M. Pitz, J. Cyrys, and A. Peters |
| Microscale variations of atmospheric particle number size distributions in a densely built-up city area: Implications for exposure to traffic particles | |
| M. Merkel, W. Birmili, A. Wiedensohler, D. Hinneburg, O. Knoth, T. Tuch, and U. Franck |
| Chemical characterization and source attribution of size-segregated aerosol collected at an urban site in Mediterranean basin | |
| M. Rinaldi, L. Emblico, V. Mancinelli, S. Decesari, M. C. Facchini, S. Fuzzi, and V. Librando |
| Determination of particulate carbonaceous species in an urban background aerosol in Nairobi, Kenya | |
| M. J. Gatari, M. D. Hays, R. J. Lavrich, and S. M. Gaita |
| A wintertime study of atmospheric aerosols collected in São Paulo, Brazil | |
| P.C. Vasconcellos, L. Ogura , W. Lopes, P.A. Pereira, J. Andrade, and O. Sanchez-Ccoyllo |
| UFIPOLNET: Concentration of particle number distributions at 4 stations in Europe | |
| H. Gerwig, G. Löschau, L. Hillemann, B. Wehner,A. Wiedensohler, A. Zschoppe, C. Peters, A. Rudolph, C. Johansson J. Cyrys, M. Pitz, R. Rückerl, J. Novak, H.G. Horn, R. Caldow, and G.J. Sem |
| Time evolution of fine and ultrafine ambient particles in a Madrid suburban site | |
| M. Pujadas, F.J. Gómez-Moreno, J. Plaza, J. Rodriguez-Maroto, M. Sánchez, E.Coz, and B.Artíñano |
| Mixing state of non volatile particle fractions in two Chinese mega city areas | |
| B. Wehner, M. Berghof, P. Achtert, A. Nowak, A. Wiedensohler, Y.F. Cheng, M. Hu, Y.H. Zhang, and T. Zhu |
| Chloride ion in urban atmospheric aerosols | |
| A.F. Ferreira, P. Portela, C. Oliveira, L. Quintão, and M.F. Camões |
| Seasonal variation of submicron aerosol number size distributions at urban and suburban sites of Prague in 2004/2005 | |
| J. Hovorka, V. Ždímal, J. Schwarz, Z. Wagner, P. Dohányosová, M. Braniš, and J. Smolík |
| Human basophils are target cells for urban aerosol-associated polycyclic aromatic hydrocarbons (PAHs) | |
| W. Schober, S. Lubitz, B. Belloni, G. Gebaue, B. Eberlein, J. Lintelmann, H. Behrendt, and J. Buters |
| Electrical Effects |
| Laboratory simulation of body charging by the flow with electrical charged water drops | |
| A. Vatazhin, D. Golentsov, and V. Likhter |
| A fixed site monitoring station to measure corona produced from a high voltage powerline | |
| J.C. Matthews, P.A. Keitch, J.P. Ward, and D.L. Henshaw |
| Novel wet space-charge electrostatic precipitator for fine particles | |
| A.M. Bologa, H.-R. Paur, H. Seifert, and K. Woletz |
| Dynamics of highly charged fine aerosols in between electrodes | |
| I.G. Loscertales, E.A: Rodríguez, D. Galán, M. Marquez, and A. Barrero |
| Numerical simulation of nanoparticle patterning via electrodynamic focusing | |
| S. You and M. Choi |
| Investigation of the associations between parameters characterizing the electrical environment near a strong corona ion emitting source | |
| F.O. J-Fatokun, E.R. Jayaratne, L. Morawska, R. Rachman, and D. Birtwhistle |
| Application of aerosol electrometer for ambient particle charge measurements | |
| F.O. J-Fatokun, E.R. Jayaratne, M. Jamriska, and L. Morawska |
| Lunar variation of precipitation supports links between solar activity and atmospheric ionization | |
| L. Hejkrlík |
| Corona ions from HV powerlines: measurements, theory and health implications | |
| A.J. Buckley, M.D. Wright, P.A. Keitch, J.C. Matthews, and D.L. Henshaw |
| Indoor Aerosols |
| Influence of source of heating and air movement on the particles and air parameters | |
| E. Jankowska and E. Walicka |
| Commuter exposure to particulate matter in transport microenvironments | |
| I. Colbeck and Z. Ahmad Nasir |
| Fine and coarse aerosol particles in a student’s club before and after a smoking ban | |
| J. Hovorka, M. Braniš, P. Gadas, and T. Valchárová |
| Effect on indoor air ion enhancement and bacterial activity inhibition by evaporating selected essential oils | |
| C.H. Luo, Y. Shih, and S.B. Lian |
| Aerosol dynamics in a test chamber: experiment and modelling | |
| J. Smolík, A. Hruška, P. Dohányosová, T. Hussein, and J. Hemerka |
| Single-particle characterization of seasonal aerosol samples collected at a subway station platform in Seoul, Korea | |
| S. Kang, H. Hwang, M.S.I. Khan, Y. Park, E. Choi, H. Kim, and C.-U. Ro |
| Measurements of domestic UFP sources in a real life test chamber | |
| N. Bleux, P. Berghmans, F. Deutsch, S. Janssen, J. Vankerkom, M. Van Poppel, and R. Torfs |
| Monitoring of aerosolized black carbon in a pulmonary hospital setting | |
| M. Vardjan, G.Mocnik, and A. Zrimec |
| Physical and chemical properties of fine particles emitted from candles | |
| J. Pagels, A. Wierzbicka, A. Dahl, E. Swietlicki, and M. Bohgard |
| Gravimetric and optical aerosol measurements in an industrial workplace and the impact of the measurement uncertainty on the calculated inhaled dose | |
| S. Vratolis, C. Mitsakou, K. Eleftheriadis, A. Karanasiou, C. Housiadas, and M. Lazaridis |
| The origin of indoor PM2.5 at a residence in Melbourne, Australia | |
| J.C. Powell and G.P. Ayers |
| Lung-Particle-Interaction |
| Model for the depostion of fine and ultrafine aerosol particles in rat lungs | |
| G.A. Ferron, J. Gentry, E. Karg, O. Schmid, and S. Takena |
| A mechanical lung model to measure particle deposition | |
| P.A. Keitch, M.D. Wright, A.J. Buckley, and D.L. Henshaw |
| Regional deposition pattern of aerosol particles in the replica of upper airways | |
| T.R. Sosnowski, L. Gradon, and A. Moskal |
| Development of a decision support tool for estimation of human exposure to particles (STEDOM)– A presentation of the stand alone exposure and dosimetry modules | |
| V. Aleksandropoulou and M. Lazaridis |
| Number size distribution of atmospheric aerosol particles at urban and rural sites in Hungary with health implications | |
| R. Ocskay, I. Salma, P. Aalto, M. Kulmala, A. Gelencsér, G. Kiss, and I. Balásházy |
| Respiratory tract deposition measurements of aerosol particles with on-line techniques; review of sources of error and estimation of their impact | |
| J. Löndahl, E. Swietlicki, J. Pagels, and M. Bohgard |
| Modelling deposition of hygroscopic particles in the human respiratory tract | |
| R. Winkler-Heil, G.A. Ferron, and W. Hofmann |
| Deposition of polydisperse fibers in the human respiratory tract: Comparison between theoretical predictions and experimental data | |
| R. Sturm and W. Hofmann |
| A stochastic model for the deposition of nonspherical particles in the human respiratory tract | |
| R. Sturm and W. Hofmann |
| Lung deposition of particle aggregates: Theory and experimental data | |
| O. Schmid, W. Möller, E. Karg, K. Felten, G.A. Ferron, H. Fissan, W. Hofmann, H. Schulz, and W.G. Kreyling |
| A theoretical approach to the bronchial clearance of micrometer-sized nonspherical particles | |
| R. Sturm and W. Hofmann |
| The lung's structural asymmetry and its effect on ventilation and particle deposition | |
| D.M. Broday and Y. Agnon |
| Health effects of inhaled radon progenies in homes and mines | |
| I. Szoke, Á. Farkas, I. Balásházy, and W. Hofmann |
| Pulmonary deposition and chemical composition of biosoluble vitreous fibers | |
| R. Szoke, I. Sziklai-László, I. Balásházy, G. Kudela, and W. Hofmann |
| Effect of therapeutic salt aerosols on ambient particle concentrations and size distributions and related lung deposition | |
| F. Kwasny, P. Madl, and W. Hofmann |
| Analyses of size distribution and related lung deposition in the SELSONICS ultrasonic nebulization chamber | |
| P. Madl and W. Hofmann |
| Simulation of nano-particle deposition in human central airways | |
| M.C. Piglione and M. Vanni |
| Health risk from vehicle emissions and soot in urban area | |
| A. Schady, A. Gzella, J. Zwozdziak, A. Szczurek, I. Sowka, and A. Zwozdziak |
| Cardiovascular emergency calls associated to urban submicron aerosol fractions | |
| U. Franck, S. Odeh, T. Tuch, O. Herbarth, W.-H. Storch, A. Wiedensohler, and B. Wehner |
| Medical Aerosols |
| Reentrainment and deaggregation of powder particles as a result of flow disarrangement | |
| T.R. Sosnowski, J. Gac, and L. Gradon |
| The effect of particle hygroscopicity on mouth and throat deposition | |
| C. Mitsakou, D. Mitrakos, and C. Housiadas |
| Numerical study of the transient behavior of cascade impactors | |
| M. Chiruta, D.L. Roberts, and F.J. Romay |
| Aerodynamic characterisation of new pharmaceutical inhalers | |
| H. Wachtel, Ö. Ertunc, C. Köksoy, and F. Durst |
| Nanoparticles |
| Aerosol reaction engineering in flames: From oxides to salt and metal nanoparticles | |
| R.N. Grass, E.K. Athanassiou, and W.J. Stark |
| Formation process and chemical structure analysis of ionic-liquid nanoparticle | |
| M. Shigeyasu and H. Tanaka |
| Air stable, carbon coated metal nanoparticles of sensor applications | |
| E.K. Athanassiou, R.N. Grass, and W.J. Stark |
| Size and concentration control of nanoparticles in plasma using pulsed hydrogen gas | |
| K.-S. Kim, B.-H. Kim, and T. Kim |
| Urban and rural measurements of atmospheric small-ions and ultrafine particles | |
| M. D. Wright, A. J. Buckley, P. A. Keitch, and D. L. Henshaw |
| Deposition of composite aerosol particles and their subsequent evolution through surface diffusion | |
| M.J. Burchill, D.K. Gramotnev, T. Bostrom, D.R. Mason, and G. Gramotnev |
| Relations of discharge electrode form and ozone generation in ESP | |
| D. Yagishita, Y. Takagi, Y. Ehara, T. Takahashi, A. Zukeran, and K. Yasumoto |
| Collection of nanoparticles by improvement of charging section in ESP | |
| T. Okabe, Y. Takagi, Y. Ehara, A. Zukeran, and K. Yasumoto |
| Preparation of Co and Ni nanoparticles | |
| J. Forsman, A. Auvinen, J. Jokiniemi, and U. Tapper |
| Morphology and reactivity of carbon nanoparticles and and nanotubes formed during co-pyrolysis of Fe(CO)5 and propane | |
| N.A. Ivanova, A.A. Onischuk, S.V. Vosel, P.A. Purtov, A.M. Baklanov, L.V. Kulik, L.L. Rapatskiy, N.T. Vasenin, and V.F. Anufrienko |
| Flame synthesis of TiO2 nanoparticles and their use as a photocatalyst | |
| G.W. Lee, S.M. Choi, and J. Park |
| A stable nano-generator based on the sublimation of tungsten oxide | |
| G. Steiner and G.P. Reischl |
| Production of novel Ag nanoparticle with C60 nanoparticle | |
| N. Hashimoto, S. Taguchi, and H. Tanaka |
| Effect of Nanoparticles on the respiratory epithelium in vitro: Role of chemical composition and particle size | |
| S. Boland, S. Hussain, M.A. Billon-Galland, J. Fleury-Feith, A. Baeza, L. Martinon, F. Moisan, J.C. Pairon, and F. Marano |
| Droplet size characterization in spray flames | |
| H. Keskinen, J.M. Mäkelä, M. Aromaa, M.C. Heine, and S.E. Pratsinis |
| Hydrogen storage behaviour of metallic nanoparticles generated by spark discharge | |
| N. Salman Tabrizi, W.J. Legerstee, S. Eijt, and A. Schmidt-Ott |
| Deposition of nanometric singly charged particles in cylindrical metallic and flexible conductive silicone tubes | |
| M.B. Attoui |
| Ni/NiO nanoparticle synthesis by MOCVD | |
| P. Moravec, J. Smolík, H. Keskinen, J.M. Mäkelä, and V.V. Levdansky |
| Ethylene flame: Effects of pressure on soot properties | |
| M. Maugendre, A. Coppalle, J. Yon, K. P.Geigle, and R. Stirn |
| Nanoinventory – results of a qualitative survey about nanoparticles in Swiss industries | |
| K. Schmid and M. Riediker |
| Effects of Ti4+ concentration on crystal phase of TiO2 powders synthesized by low-temperature hydrothermal method | |
| P.-S. Tsai, C.-H. Tsai, Y.-F. Lai, and Y.-M. Yang |
| Preparation and characteristic of Pt and Pt-Ru nanoparticles for utilized proton exchange membrane regenerative fuel cell | |
| Y.-C. Chiang, C.-C. Lin, and C.-C. Lee |
| Nanoparticle synthesis by gas-dynamically induced heating and quenching | |
| M. Dannehl, A. Maisels, W. Leibold, H. Olivier, A. Grzona, A. Weiß, A. Gülhan, T. Gawehn, G.H. Schnerr, N. Al-Hasan, A. Abdali, M.Y. Luong, H. Wiggers, C. Schulz, B. Weigand, J. Chun, W. Schröder, M. Meinke, T. Winnemöller, H. Nirschl, V. Goertz, K. Schaber, and T. Rakel |
| Thermal tweezers for effective manipulation of nano-particles on surfaces | |
| D.R. Mason, D.K. Gramotnev, and G. Gramotnev |
| Investigation of the charge distribution in a FePt nanoaerosol formed by pulsed laser ablation | |
| M. Rouenhoff, A. Nedic, and E. Kruis |
| The TSI N95-Companion™ – a convenient alternative in everyday nanoparticle classification? | |
| M.N.A. Karlsson, Z. Geretovszky and K. Deppert |
| NANOCAP : Nanotechnology Capacity Building NGOs | |
| I. Colbeck and A. Cox |
| Catalytic oxidation of carbon aerosols by Pt nanparticles: Influence of the Pt-C interparticle contact configuration on the reaction rate | |
| P. Davoodi, M. Seipenbusch, A.P. Weber, and G.Kasper |
| The production of nanoparticles with a CO2 laser driven aerosol process | |
| J.W.M. van Erven, Z. Fu, T.M. Trzeciak, and J.C.M. Marijnissen |
| Strategies for the determination of engineered nanoparticles – Examples from TiO2 production | |
| T.A.J. Kuhlbusch, C. Asbach, H. Kaminski, and H. Fissan |
| Fabrication and size control of carbon nanotube on nano-scale Ni aerosol particles | |
| K. Benten, H. Takano, and M. Itoh |
| Study on the collection of nanometric powders by electro-static precipitators from iron and steel industry gases emission | |
| C. Grigoriu, I. Nicolae, C. Viespe, D. Dragulinescu, D. Martin, S. Jinga, R. Macarie, and P. Biswas |
| Nanoparticles in fine dust - development of modern measuring methods | |
| N. Sabbagh and W.W. Szymanski |
| Cyclone technology for nanopowder collection | |
| H.M. Chein and Y.-D. Hsu |
| On the particle size distributions by flame electrospray pyrolysis | |
| H. Oh and S. Kim |
| PM10 / PM2.5 |
| Urban dust – chemical composition of PM10 in Prague tunnels | |
| V. Tydlitát, B. Kotlík, J. Karban, and J. Janota |
| Chemical mass balance of PM10 at Sonnblick | |
| C. Effenberger, A. Kranabetter, G. Schauer, and A. Kasper-Giebl |
| The use of trajectory cluster analysis to interpret PM levels and composition at central Spain | |
| P. Salvador, B. Artíñano, and X. Querol |
| New sites for background air quality monitoring in Ireland | |
| S. Leinert and G. Jennings |
| Mobile air quality monitoring trailer for developing countries | |
| T. Petäjä, L. Laakso, T. Pohja, E. Siivola, H. Laakso, P.P. Aalto, P. Keronen, N.A. Kgabi, and M. Kulmala |
| Effects of particle hygroscopicity on fine particle mass concentration at Seoul, Korea | |
| E.K. Choi and Y.P. Kim |
| PM air pollution in urban agglomerations | |
| M. Schwarzova, M. Schmidt, R. Licbinsky, J. Huzlik, V. Adamec, and W. Goessler |
| Water soluble organic and inorganic compunds in PM10 | |
| G.A. Blanco-Heras, M.C. Prieto-Blanco, M.I. Turnes-Carou, M. Piñeiro-Iglesias, P. López-Mahía, S. Muniategui-Lorenzo, and D. Prada-Rodríguez |
| Profiles of road dust and its contribution to PM10 atmospheric aerosol | |
| N. Jankowski, H. Puxbaum, and I.L. Marr |
| Some aspects of fine inorganic aerosols (PM1, PM2.5) in the metropolitan area of Mexico City during the winters of 2003, 2005 and 2006 (MIRAGE campaign). | |
| M. Moya |
| Concentration and the chemical characterization of PM10 and PM2.5 in all the Italian territory | |
| E. Bolzacchini, L. Ferrero, C. Lo Porto, M. G. Perrone, G. de Gennaro, P. Bruno, M. Caselli, P.R. Dambruoso, B.E. Daresta, C.M. Placentino, M. Tutino, M. Amodio, D. Baldacci, M. Stracquadanio, L. Tositti, S. Zappoli, D. Gullotto, V. Librando, Z. Minniti, G. Perrini, G. Trincali, S. Becagli, A. Mannini, R. Udisti, C. Paradisi, A. Tapparo, P. Barbieri, L. Capriglia, F.Cozzi, E. Maran, E. Reisenhofer, V. Sicardi, P. Fermo, and A. Piazzalunga |
| Summer 2006 events and their effect on PM10 levels in Haifa Bay region, Israel | |
| Yuval and David M. Broday |
| PM10 in Ireland, 2002 to 2005 | |
| S. Leinert, J. Finnan, and B. O'Leary |
| PM1 and trace element concentrations measured in Tito Scalo (Basilicata region, Southern Italy) | |
| S. Trippetta, R. Caggiano, M. Macchiato, M. Ragosta, S. Sabia, and G. Scardaccione |
| PM10 and PM2.5 in ambient soil dust: Elemental enrichment factor | |
| K. Trzepla-Nabaglo, R.G. Flocchini, and O.F. Carvacho |
| Statistical study of the secondary organic aerosol from countryside of Madrid (Spain) | |
| O. Pindado, R.M. Pérez, S. García, and A.I. Barrado |
| Monitoring of heavy metals Pb, Cdin fine particles PM10 in the Mitrovica urban atmosphere | |
| A.M. Syla, K. Berisha, and A. Veliu |
| The episode of high particle loads in Europe in January and and February 2006 with emphasis on Germany | |
| S. Wurzler, W. Kappert, K. Mildenberger, M. Memmesheimer, H. Jakobs, G. Spindler, K. Drescher, and P. Bruckmann |
| High population density and heavy industry: The challenge for air quality management in North Rhine Westphalia: Are the measures effective? | |
| S. Wurzler, W. Kappert, D. Gladtke, P. Bruckmann, and M. Memmesheimer |
| The ratio of PM2,5/PM10 concentrations of suspended particles at stations selected in the Czech Republic | |
| I. Brožová |
| Characteristics of atmospheric aerosols in Cheonan, Korea during 2006 | |
| S. Oh |
| Modification of commercially available whole body exposure chambers for rodents for exposure to fine and ultrafine aerosols | |
| T.M. Tuch, U. Franck, M. Schilde, M. Wilde, V. Menzel, P. Portius, and O. Herbarth |
| Evaluation of the effectiveness of street sweeping on road dust removal | |
| S. Han, H. Jo, J.S. Kim, S.B. Lee, and Y.-W. Jung |
| Air Quality assessment at a Portuguese rural city using a TEOM instrument | |
| S.N. Pereira, F. Wagner, and A.M. Silva |
| Characteristics of atmospheric particles collected near a wax apple waste open burning site | |
| W.Y. Lin, S.J. Chen , K.L. Huang, C.C. Lin, and J.H. Tsa |
| Evaluation of PM10 sources in three costal areas of the north-west of Spain | |
| M. Piñeiro-Iglesias, P.López-Mahía, S. Muniategui-Lorenzo, D. Prada-Rodríguez, and E. Fernández-Fernández |
| Concentrations of oxygenated PAH and other SVOC in relation to urban PM2.5 derived formation of reactive oxygen species | |
| M. Sklorz, J.J. Briedé, J. Schnelle-Kreis, Y. Liu, J. Orasche, J. Cyrys, T.M. de Kok, and R. Zimmermann |
| Air pollution and climate change - Who takes the blame ? C(1s) NEXAFS spectroscopy on fine particulates “Feinstaub” could provide answers | |
| A. Braun |
| PM10, PM2.5, PM1 fractions of particulate matter in Prague during year 2006 | |
| L. Štefancová, J. Schwarz, and J. Smolík |
| Levels and chemical composition of PM10 and PM2.5 in “El Arenosillo” rural monitoring station (SW Spain) | |
| Y. González Castanedo, J.D. de la Rosa, A.M. Sánchez de la Campa, A. Alastuey, X. Querol, J.P. Bolivar, V. Cachorro, and M. Sorribas |
| PM10 and PM2,5 ambient levels in the Czech Republic | |
| I. Hunová |
| Spatial and temporal variability in PM10 data from Italian urban networks | |
| A. Di Menno di Bucchianico, S. Bartoletti, A. Gaeta, G. Gandolfo, A.M. Caricchia, and M.C. Cirillo |
| Chemical composition and source apportionment of particulate matter in Elche, Spain | |
| J. Crespo, J. Nicolás, S. Caballero , E. Yubero, M. Chiari, F. Lucarelli, S. Nava, and I. García Orellana |
| Urban contribution to trace metals in the PM10 in Salzburg and other Austrian cities | |
| M. Handler, H. Zbiral, H. Puxbaum, and A. Limbeck |
| Size-selective mass and elemental composition of fine particles in the vicinity of a major freeway | |
| D. Martuzevicius, S.A. Grinshpun, A.L. Kelley, H. St.Clair, L. Kliucininkas, and T.A. Cahil |
| Study of spatial variability of the particulate matter (PM) concentrations | |
| S. Stefan and C. Raicu |
| Atmospheric aerosol characterisation in Tuscany (PATOS project): identification of natural and anthropogenic episodes by PIXE analysis | |
| F. Lucarelli, G. Calzolai, M. Chiari, L. Lepri, S. Nava, L. Paperetti, and R. Udisti |
| On the methodology to identify the origin of air masses arriving in a receptor site and determine their contribution to PM levels. A 7-year study in SE Spain. | |
| M. Cabello, V. Galiano, and J.A.G. Orza |
| Vegetative input to the Austrian PM10 | |
| P. Kotianová, A. Caseiro, I.L. Maar, H. Bauer, and H. Puxbaum |
| Speciation of semivolatile organics in the Veneto’s bonfires aerosol | |
| A. Latella, L. Sperni, E. Rampado, and A. Benassi |
| Exceptional urban air pollution episode from biomass burning | |
| A. Latella, A. De Bortoli, G. Marson, E. Baraldo, P. Tieppo, and A. Benassi |
| Characterisation and size distribution of airborne particles in urban traffic and background sites at Stuttgart Neckartor | |
| K.B. Ang, G. Baumbach, M.A. Bari, G. Scheffknecht, W. Dreher, and P. Pesch |
| PMx mass and ionic composition of PM in the NW suburb of Prague in relation to meteorological conditions | |
| J. Schwarz, J. Smolík, and J. Hovorka |
| Effectiveness of street cleaning for reducing ambient PM10 concentrations | |
| A.C. John, A. Hugo, H. Kaminski, A. Brandt, W. Kappert, E. Falkenberg, and T.A.J. Kuhlbusch |
| Magnetic measurements of PM10 and their potential for monitoring environmental stress | |
| E. Petrovský, B. Kotlík, R. Zboril, J. Novák, A. Kapicka, and H. Fialová |
| HULIS over Vienna investigations into water and alkaline extractable Humic Like Substances in airborne particulate matter | |
| B. Klatzer, H. Bauer, I.L. Marr, and H. Puxbaum |
| Chemical characterization of fine particulate matter in Bari and Taranto (South Italy) | |
| M. Amodio, P. Bruno, M. Caselli, P.R. Dambruoso, B.E. Daresta, G. de Gennaro, P. Ielpo, V. Paolillo, C.M. Placentino, L. Trizio, and M. Tutino |
| Rainfall influence on the relation between particulate matter and traffic flow | |
| M. Filice and P. De Luca |
| Chemical characterization of atmospheric PM sampled near an incinerator of urban solid waste located in Granarolo dell’Emilia, Bologna, Italy, and in the neighbours urban and rural areas of Bologna | |
| V. Poluzzi, C. Maccone, I. Ricciardelli, L . Passoni, M. Busetto, D. Lucchini, E. Errani, M. Ridolfi, S. Ruiba, S. Tamburini, P. Franceschi, I. Scaroni, and G. Castellari |
| Special Sesion: UT/LS Aerosols and Clouds - Measurements and Modeling |
| Ice-nucleating ability of the most abundant mineral dust phases in the atmosphere | |
| F. Zimmermann, M. Ebert, St. Weinbruch, and L. Schütz |
| Nitric acid uptake and supersaturations in different types of cirrus clouds: model case and sensitivity studies | |
| I. Gensch, H. Bunz, D. Baumgardner, L.E. Christensen, J. Curtius, R.L. Herman, T. Peter, P. Popp, C. Schiller, H. Schlager, C. Voigt, C.R. Webster, J.C. Wilson, and M. Kraemer |
| Model calculations and experiments investigating freezing of UT/LS-aerosols | |
| H. Bunz, S. Benz, and O. Möhler |
| Aerosol impact on supersaturations in cirrus: Laboratory and field observations | |
| M. Krämer, S. Schlicht, C. Schiller, A. Mangold, O. Möhler, H. Saathoff, V. Ebert, and N. Sitnikov |
| Formation of large (100 microns) ice crystals near the tropopause | |
| E.J. Jensen, L. Pfister, T.V. Bui, P. Lawson, B. Baker, Q. Mo, D. Baumgardner, E.M. Weinstock, J.B. Smith, E.J. Moyer, T F. Hanisco, D.S. Sayres, J.M. St.Clair, R.L. Herman, R.F. Troy, M.J. Alexander, O.B. Toon, and J.A. Smith |
| Particle chemical composition measured at a high alpine field station in Switzerland: Impact on the phase of cold clouds | |
| A.C. Targino, K. Bower, T.W. Choularton, H. Coe, J. Crosier, I. Crawford, M.W. Gallagher, M. Flynn, J. Cozic, B. Verheggen, E. Weingartner, and U. Baltensperger |
| Aerosol Filtration#2 |
| Comparison of the loading characteristics onto filters of the particles entering the ceramic candle filter vessel through the normal or tangential inlet | |
| S.J. Park, K.S. Lim, and J.H. Lim |