Prof. Dr. Andre Prevot

Kurzbeschreibung
Group Head Gasphase and Aerosol Chemistry
André S. H. Prévôt
Téléphone
Institut Paul Scherrer PSI
Forschungsstrasse 111
5232 Villigen PSI
Suisse

Education and degrees

1984-1990 Physics student at the Eidgenössische Technische Hochschule (ETH), Zürich, Switzerland
1990 Diploma in physics, specialization in atmospheric physics
1994 PhD in natural sciences

Professional Affiliations

1991-1994 Research assistent at the Institute for Atmospheric and Climate Science ETH Zürich, Switzerland
1995 Postdoc at the Institute for Atmospheric and Climate Science ETH Zürich, Switzerland
1995-1997 Postdoc at the National Center for Atmospheric Research (NCAR), Boulder, Colorado, USA
1997-1999 Postdoc at the Paul Scherrer Institute, Villigen, Switzerland
2000-now Head of the Gasphase Chemistry group in the Laboratory of Atmospheric Chemistry, Paul Scherrer Institute, Villigen, Switzerland

Further Training

1999 Seminar on project management (5 days)
2000-2001 Management trainings (15 days)
2001 Management seminars (4 days)

Projects

1989-1990 Winter rain at Mount Rigi Swiss project
1990-1994 POLLUMET Pollution and Meteorology in Switzerland
1995-1997 ACE-1 Aerosol Characterization Experiment 1, IGAC project
1997-2003 EUROTRAC II Eureka project on the transport and chemical transformation of trace constituents in the troposphere over Europe II, Contributions to subprojects LOOP, TOR II, AEROSOL, GLOREAM
1996-1998 VOTALP Vertical Ozone Transports in the Alps, EU project
1998-2000 VOTALP II Vertical Ozone Transports in the Alps II, EU project
2000-2004 ARTEMIS Assessment and Reliability of Transport Emission Models and Inventory Systems, EU project
2000-2002 YOGAM Year of Gasphase and Aerosol Measurements, Swiss project
2001-2004 COCA Characterization of Organic Compounds in the Atmosphere, Swiss project
2001-2004 CHAPOP Characterization of Organic Compounds in the Atmosphere, EU project CAATER and Swiss funding
2001-2002 LUTUS Luftbelastung während der Tunnelsperrung am Gotthard Swiss project
2001-2003 PROSMOG Proton transfer reaction mass spectrometer at the smog chamber, Swiss project
2001-2004 TOSS Trends of Ozone in Southern Switzerland, Swiss project
2001-2004 FORMAT Role of Formaldehyde in the Troposphere, EU project
2003-2004 TROZOS Trends of Ozone in Switzerland, Swiss project
2003-2004 SPEED LIMIT 80 ON HIGHWAYS, Influence on Ozone, Swiss project
2004 Model scenarios for ozone in Switzerland, Swiss project
2004-2009 ACCENT Atmospheric Composition Change, EU network of excellence
2004-2007 EUROCHAMP Integration of European Simulation Chambers for Investigation Atmospheric Processes, EU infrastructure project
2004-2007 AEROWOOD Aerosol from wood combustion, Swiss project
2004-2006 AMS Switzerland Aerosol composition by Aerosol mass spectrometry in Switzerland, Swiss project
2004-2007 Evaluation of aerosol road traffic emissions in Switzerland by chasing experiments and dynamometric tests, Swiss project
Clarivate Analytics (formerly Thomson Reuters) Highly Cited Researcher

 

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2014

2015

2016

2017

2018

2019

2020
2006
PSI-Preis für Wissenschaftskommunikation 2006
(PSI Award for Science Communication 2006)
André Prévôt, Urs Baltensperger

Neueste Erkenntnisse über die Quellen von Feinstaub in der Schweiz (Latest insight into the sources of fine particulate matter in Switzerland)
Committee / Function Period
SCNAT Commission on Atmospheric Chemistry and Physics
Member
2003 -
Atmospheric Chemistry and Physics
Co-editor
200x -

Publications since 2017 are listed.

  • Aksoyoglu S, Jiang J, Oikonomakis E, Prévôt ASH
    Same model (CAMx6.50), same year (2010), two different European projects: how similar are the results?
    In: Mensink C, Matthias V, eds. Air pollution modeling and its application XXVII. Springer Proceedings in Complexity. Berlin: Springer Nature; 2021:95-100. https://doi.org/10.1007/978-3-662-63760-9_14
    DORA PSI
  • Bhowmik HS, Naresh S, Bhattu D, Rastogi N, Prévôt ASH, Tripathi SN
    Temporal and spatial variability of carbonaceous species (EC; OC; WSOC and SOA) in PM2.5 aerosol over five sites of Indo-Gangetic plain
    Atmospheric Pollution Research. 2021; 12(1): 375-390. https://doi.org/10.1016/j.apr.2020.09.019
    DORA PSI
  • Bressi M, Cavalli F, Putaud JP, Fröhlich R, Petit J-E, Aas W, et al.
    A European aerosol phenomenology - 7: high-time resolution chemical characteristics of submicron particulate matter across Europe
    Atmospheric Environment: X. 2021; 10: 100108 (16 pp.). https://doi.org/10.1016/j.aeaoa.2021.100108
    DORA PSI
  • Canonaco F, Tobler A, Chen G, Sosedova Y, Slowik JG, Bozzetti C, et al.
    A new method for long-term source apportionment with time-dependent factor profiles and uncertainty assessment using SoFi Pro: application to 1 year of organic aerosol data
    Atmospheric Measurement Techniques. 2021; 14(2): 923-943. https://doi.org/10.5194/amt-14-923-2021
    DORA PSI
  • Chen W, Ye Y, Hu W, Zhou H, Pan T, Wang Y, et al.
    Real-time characterization of aerosol compositions, cources, and aging processes in Guangzhou during PRIDE-GBA 2018 campaign
    Journal of Geophysical Research: Atmospheres. 2021; 126(16): e2021JD035114 (27 pp.). https://doi.org/10.1029/2021JD035114
    DORA PSI
  • Chen G, Sosedova Y, Canonaco F, Fröhlich R, Tobler A, Vlachou A, et al.
    Time-dependent source apportionment of submicron organic aerosol for a rural site in an alpine valley using a rolling positive matrix factorisation (PMF) window
    Atmospheric Chemistry and Physics. 2021; 21(19): 15081-15101. https://doi.org/10.5194/acp-21-15081-2021
    DORA PSI
  • Ciarelli G, Jiang J, El Haddad I, Bigi A, Aksoyoglu S, Prévôt ASH, et al.
    Modeling the effect of reduced traffic due to COVID-19 measures on air quality using a chemical transport model: impacts on the Po Valley and the Swiss Plateau regions
    Environmental Science: Atmospheres. 2021; 1(5): 228-240. https://doi.org/10.1039/D1EA00036E
    DORA PSI
  • Farah A, Freney E, Canonaco F, Prévôt ASH, Pichon J-M, Abboud M, et al.
    Altitude aerosol measurements in central France: seasonality, sources and free-troposphere/boundary layer segregation
    Earth and Space Science. 2021; 8(3): e2019EA001018 (18 pp.). https://doi.org/10.1029/2019EA001018
    DORA PSI
  • Freney E, Sellegri K, Nicosia A, Williams LR, Rinaldi M, Trueblood JT, et al.
    Mediterranean nascent sea spray organic aerosol and relationships with seawater biogeochemistry
    Atmospheric Chemistry and Physics. 2021; 21(13): 10625-10641. https://doi.org/10.5194/acp-21-10625-2021
    DORA PSI
  • Giannoukos S, Tarik M, Ludwig C, Biollaz S, Slowik J, Baltensperger U, et al.
    Detection of trace metals in biogas using extractive electrospray ionization high-resolution mass spectrometry
    Renewable Energy. 2021; 169: 780-787. https://doi.org/10.1016/j.renene.2021.01.047
    DORA PSI
  • Gkatzelis GI, Coggon MM, Mcdonald BC, Peischl J, Gilman JB, Aikin KC, et al.
    Observations confirm that volatile chemical products are a major source of petrochemical emissions in U.S. cities
    Environmental Science and Technology. 2021; 55(8): 4332-4343. https://doi.org/10.1021/acs.est.0c05471
    DORA PSI
  • Hou S, Liu D, Xu J, Vu TV, Wu X, Srivastava D, et al.
    Source apportionment of carbonaceous aerosols in Beijing with radiocarbon and organic tracers: insight into the differences between urban and rural sites
    Atmospheric Chemistry and Physics. 2021; 21(10): 8273-8292. https://doi.org/10.5194/acp-21-8273-2021
    DORA PSI
  • Huang XF, Cao LM, Tian X-D, Zhu Q, Saikawa E, Lin L-L, et al.
    Critical role of simultaneous reduction of atmospheric odd oxygen for winter haze mitigation
    Environmental Science and Technology. 2021; 55(17): 11557-11567. https://doi.org/10.1021/acs.est.1c03421
    DORA PSI
  • Jiang J, El Haddad I, Aksoyoglu S, Stefenelli G, Bertrand A, Marchand N, et al.
    Influence of biomass burning vapor wall loss correction on modeling organic aerosols in Europe by CAMx v6.50
    Geoscientific Model Development. 2021; 14(3): 1681-1697. https://doi.org/10.5194/gmd-14-1681-2021
    DORA PSI
  • Jiang J, Aksoyoglu S, Ciarelli G, Prévôt ASH
    Role of organic aerosol chemistry schemes on particulate matter modeling in Europe
    In: Mensink C, Matthias V, eds. Air pollution modeling and its application XXVII. Springer Proceedings in Complexity. Berlin: Springer Nature; 2021:3-9. https://doi.org/10.1007/978-3-662-63760-9_1
    DORA PSI
  • Lalchandani V, Kumar V, Tobler A, Thamban NM, Mishra S, Slowik JG, et al.
    Real-time characterization and source apportionment of fine particulate matter in the Delhi megacity area during late winter
    Science of the Total Environment. 2021; 770: 145324 (17 pp.). https://doi.org/10.1016/j.scitotenv.2021.145324
    DORA PSI
  • Lee CP, Surdu M, Bell DM, Lamkaddam H, Wang M, Ataei F, et al.
    Effects of aerosol size and coating thickness on the molecular detection using extractive electrospray ionization
    Atmospheric Measurement Techniques. 2021; 14(9): 5913-5923. https://doi.org/10.5194/amt-14-5913-2021
    DORA PSI
  • Moschos V, Gysel-Beer M, Modini RL, Corbin JC, Massabò D, Costa C, et al.
    Source-specific light absorption by carbonaceous components in the complex aerosol matrix from yearly filter-based measurements
    Atmospheric Chemistry and Physics. 2021; 21(17): 12809-12833. https://doi.org/10.5194/acp-21-12809-2021
    DORA PSI
  • Ni H, Huang R-J, Pieber SM, Corbin JC, Stefenelli G, Pospisilova V, et al.
    Brown carbon in primary and aged coal combustion emission
    Environmental Science and Technology. 2021; 55(9): 5701-5710. https://doi.org/10.1021/acs.est.0c08084
    DORA PSI
  • Pospisilova V, Bell DM, Lamkaddam H, Bertrand A, Wang L, Bhattu D, et al.
    Photodegradation of α-pinene secondary organic aerosol dominated by moderately oxidized molecules
    Environmental Science and Technology. 2021; 55(10): 6936-6943. https://doi.org/10.1021/acs.est.0c06752
    DORA PSI
  • Rai P, Furger M, Slowik JG, Zhong H, Tong Y, Wang L, et al.
    Characteristics and sources of hourly elements in PM10 and PM2.5 during wintertime in Beijing
    Environmental Pollution. 2021; 278: 116865 (11 pp.). https://doi.org/10.1016/j.envpol.2021.116865
    DORA PSI
  • Rai P, Slowik JG, Furger M, El Haddad I, Visser S, Tong Y, et al.
    Highly time-resolved measurements of element concentrations in PM10 and PM2.5: comparison of Delhi, Beijing, London, and Krakow
    Atmospheric Chemistry and Physics. 2021; 21(2): 717-730. https://doi.org/10.5194/acp-21-717-2021
    DORA PSI
  • Rastogi N, Satish R, Singh A, Kumar V, Thamban N, Lalchandani V, et al.
    Diurnal variability in the spectral characteristics and sources of water-soluble brown carbon aerosols over Delhi
    Science of the Total Environment. 2021; 794: 148589 (11 pp.). https://doi.org/10.1016/j.scitotenv.2021.148589
    DORA PSI
  • Singh A, Rastogi N, Kumar V, Slowik JG, Satish R, Lalchandani V, et al.
    Sources and characteristics of light-absorbing fine particulates over Delhi through the synergy of real-time optical and chemical measurements
    Atmospheric Environment. 2021; 252: 118338 (9 pp.). https://doi.org/10.1016/j.atmosenv.2021.118338
    DORA PSI
  • Srivastava D, Daellenbach KR, Zhang Y, Bonnaire N, Chazeau B, Perraudin E, et al.
    Comparison of five methodologies to apportion organic aerosol sources during a PM pollution event
    Science of the Total Environment. 2021; 757: 143168 (12 pp.). https://doi.org/10.1016/j.scitotenv.2020.143168
    DORA PSI
  • Surdu M, Pospisilova V, Xiao M, Wang M, Mentler B, Simon M, et al.
    Molecular characterization of ultrafine particles using extractive electrospray time-of-flight mass spectrometry
    Environmental Science: Atmospheres. 2021; 1(6): 434-448. https://doi.org/10.1039/D1EA00050K
    DORA PSI
  • Thamban NM, Lalchandani V, Kumar V, Mishra S, Bhattu D, Slowik JG, et al.
    Evolution of size and composition of fine particulate matter in the Delhi megacity during later winter
    Atmospheric Environment. 2021; 267: 118752 (14 pp.). https://doi.org/10.1016/j.atmosenv.2021.118752
    DORA PSI
  • Tobler AK, Skiba A, Canonaco F, Močnik G, Rai P, Chen G, et al.
    Characterization of non-refractory (NR) PM1 and source apportionment of organic aerosol in Kraków, Poland
    Atmospheric Chemistry and Physics. 2021; 21(19): 14893-14906. https://doi.org/10.5194/acp-21-14893-2021
    DORA PSI
  • Tong Y, Pospisilova V, Qi L, Duan J, Gu Y, Kumar V, et al.
    Quantification of solid fuel combustion and aqueous chemistry contributions to secondary organic aerosol during wintertime haze events in Beijing
    Atmospheric Chemistry and Physics. 2021; 21(12): 9859-9886. https://doi.org/10.5194/acp-21-9859-2021
    DORA PSI
  • Wang L, Slowik JG, Tong Y, Duan J, Gu Y, Rai P, et al.
    Characteristics of wintertime VOCs in urban Beijing: composition and source apportionment
    Atmospheric Environment: X. 2021; 9: 100100 (12 pp.). https://doi.org/10.1016/j.aeaoa.2020.100100
    DORA PSI
  • Wang DS, Lee CP, Krechmer JE, Majluf F, Tong Y, Canagaratna MR, et al.
    Constraining the response factors of an extractive electrospray ionization mass spectrometer for near-molecular aerosol speciation
    Atmospheric Measurement Techniques. 2021; 14(11): 6955-6972. https://doi.org/10.5194/amt-14-6955-2021
    DORA PSI
  • Wu C, Bell DM, Graham EL, Haslett S, Riipinen I, Baltensperger U, et al.
    Photolytically induced changes in composition and volatility of biogenic secondary organic aerosol from nitrate radical oxidation during night-to-day transition
    Atmospheric Chemistry and Physics. 2021; 21(19): 14907-14925. https://doi.org/10.5194/acp-21-14907-2021
    DORA PSI
  • Xu J, Srivastava D, Wu X, Hou S, Vu TV, Liu D, et al.
    An evaluation of source apportionment of fine OC and PM2.5by multiple methods: APHH-Beijing campaigns as a case study
    Faraday Discussions. 2021; 226: 290-313. https://doi.org/10.1039/d0fd00095g
    DORA PSI
  • Yazdani A, Dudani N, Takahama S, Bertrand A, Prévôt ASH, El Haddad I, et al.
    Characterization of primary and aged wood burning and coal combustion organic aerosols in an environmental chamber and its implications for atmospheric aerosols
    Atmospheric Chemistry and Physics. 2021; 21(13): 10273-10293. https://doi.org/10.5194/acp-21-10273-2021
    DORA PSI
  • Yttri KE, Canonaco F, Eckhardt S, Evangeliou N, Fiebig M, Gundersen H, et al.
    Trends, composition, and sources of carbonaceous aerosol at the Birkenes Observatory, northern Europe, 2001-2018
    Atmospheric Chemistry and Physics. 2021; 21(9): 7149-7170. https://doi.org/10.5194/acp-21-7149-2021
    DORA PSI
  • Zhang T, Shen ZX, Su H, Liu SX, Zhou JM, Zhao ZZ, et al.
    Effects of aerosol water content on the formation of secondary inorganic aerosol during a Winter Heavy PM2.5 pollution episode in Xi'an, China
    Atmospheric Environment. 2021; 252: 118304 (11 pp.). https://doi.org/10.1016/j.atmosenv.2021.118304
    DORA PSI
  • Zhu W, Guo S, Zhang Z, Wang H, Yu Y, Chen Z, et al.
    Mass spectral characterization of secondary organic aerosol from urban cooking and vehicular sources
    Atmospheric Chemistry and Physics. 2021; 21(19): 15065-15079. https://doi.org/10.5194/acp-21-15065-2021
    DORA PSI
  • Aksoyoglu S, Jiang J, Ciarelli G, Baltensperger U, Prévôt ASH
    Role of ammonia in European air quality with changing land and ship emissions between 1990 and 2030
    Atmospheric Chemistry and Physics. 2020; 20(24): 15665-15680. https://doi.org/10.5194/acp-20-15665-2020
    DORA PSI
  • Boleti E, Hueglin C, Grange SK, Prévôt ASH, Takahama S
    Temporal and spatial analysis of ozone concentrations in Europe based on timescale decomposition and a multi-clustering approach
    Atmospheric Chemistry and Physics. 2020; 20(14): 9051-9066. https://doi.org/10.5194/acp-20-9051-2020
    DORA PSI
  • Chen Y, Takeuchi M, Nah T, Xu L, Canagaratna MR, Stark H, et al.
    Chemical characterization of secondary organic aerosol at a rural site in the southeastern US: insights from simultaneous high-resolution time-of-flight aerosol mass spectrometer (HR-ToF-AMS) and FIGAERO chemical ionization mass spectrometer (CIMS) measurements
    Atmospheric Chemistry and Physics. 2020; 20(14): 8421-8440. https://doi.org/10.5194/acp-20-8421-2020
    DORA PSI
  • Daellenbach KR, Uzu G, Jiang J, Cassagnes LE, Leni Z, Vlachou A, et al.
    Sources of particulate-matter air pollution and its oxidative potential in Europe
    Nature. 2020; 587(7834): 414-419. https://doi.org/10.1038/s41586-020-2902-8
    DORA PSI
  • Esmaeilirad S, Lai A, Abbaszade G, Schnelle-Kreis J, Zimmermann R, Uzu G, et al.
    Source apportionment of fine particulate matter in a Middle Eastern Metropolis, Tehran-Iran, using PMF with organic and inorganic markers
    Science of the Total Environment. 2020; 705: 135330 (16 pp.). https://doi.org/10.1016/j.scitotenv.2019.135330
    DORA PSI
  • Furger M, Rai P, Slowik JG, Cao J, Visser S, Baltensperger U, et al.
    Automated alternating sampling of PM10 and PM2.5 with an online XRF spectrometer
    Atmospheric Environment: X. 2020; 5: 100065 (6 pp.). https://doi.org/10.1016/j.aeaoa.2020.100065
    DORA PSI
  • Giannoukos S, Lee CP, Tarik M, Ludwig C, Biollaz S, Lamkaddam H, et al.
    Real-time detection of aerosol metals using online extractive electrospray ionization mass spectrometry
    Analytical Chemistry. 2020; 92(1): 1316-1325. https://doi.org/10.1021/acs.analchem.9b04480
    DORA PSI
  • Hu R, Xu Q, Wang S, Hua Y, Bhattarai N, Jiang J, et al.
    Chemical characteristics and sources of water-soluble organic aerosol in southwest suburb of Beijing
    Journal of Environmental Sciences. 2020; 95: 99-110. https://doi.org/10.1016/j.jes.2020.04.004
    DORA PSI
  • Jiang J, Aksoyoglu S, Ciarelli G, Baltensperger U, Prévôt ASH
    Changes in ozone and PM2.5 in Europe during the period of 1990–2030: role of reductions in land and ship emissions
    Science of the Total Environment. 2020; 741: 140467 (14 pp.). https://doi.org/10.1016/j.scitotenv.2020.140467
    DORA PSI
  • Jiang J, Aksoyoglu S, Ciarelli G, Oikonomakis E, Prévôt ASH
    Effects of using two different biogenic emission models on ozone and particles in Europe
    In: Mensink C, Gong W, Hakami A, eds. Air pollution modeling and its application XXVI. Springer proceedings in complexity. Cham: Springer Nature; 2020:29-34. https://doi.org/10.1007/978-3-030-22055-6_5
    DORA PSI
  • Jiang J, Aksoyoglu S, El Haddad I, Ciarelli G, Oikonomakis E, Denier van der Gon HAC, et al.
    Modelling organic aerosol in Europe: improved CAMx and contribution of anthropogenic and biogenic sources
    In: Mensink C, Gong W, Hakami A, eds. Air pollution modeling and its application XXVI. Springer proceedings in complexity. Cham: Springer Nature; 2020:383-388. https://doi.org/10.1007/978-3-030-22055-6_61
    DORA PSI
  • Lee CP, Riva M, Wang D, Tomaz S, Li D, Perrier S, et al.
    Online aerosol chemical characterization by extractive electrospray ionization-ultrahigh-resolution mass spectrometry (EESI-Orbitrap)
    Environmental Science and Technology. 2020; 54(7): 3871-3880. https://doi.org/10.1021/acs.est.9b07090
    DORA PSI
  • Leni Z, Cassagnes LE, Daellenbach KR, El Haddad I, Vlachou A, Uzu G, et al.
    Oxidative stress-induced inflammation in susceptible airways by anthropogenic aerosol
    PLoS One. 2020; 15(11): e0233425 (17 pp.). https://doi.org/10.1371/journal.pone.0233425
    DORA PSI
  • Mărmureanu L, Vasilescu J, Slowik J, Prévôt ASH, Marin CA, Antonescu B, et al.
    Online chemical characterization and source identification of summer and winter aerosols in Măgurele, Romania
    Atmosphere. 2020; 11(4): 385 (27 pp.). https://doi.org/10.3390/atmos11040385
    DORA PSI
  • Omelekhina Y, Eriksson A, Canonaco F, Prevot ASH, Nilsson P, Isaxon C, et al.
    Cooking and electronic cigarettes leading to large differences between indoor and outdoor particle composition and concentration measured by aerosol mass spectrometry
    Environmental Science: Processes and Impacts. 2020; 22(6): 1382-1396. https://doi.org/10.1039/d0em00061b
    DORA PSI
  • Paglione M, Gilardoni S, Rinaldi M, Decesari S, Zanca N, Sandrini S, et al.
    The impact of biomass burning and aqueous-phase processing on air quality: a multi-year source apportionment study in the Po Valley, Italy
    Atmospheric Chemistry and Physics. 2020; 20(3): 1233-1254. https://doi.org/10.5194/acp-20-1233-2020
    DORA PSI
  • Petäjä T, Duplissy E-M, Tabakova K, Schmale J, Altstädter B, Ancellet G, et al.
    Overview: integrative and comprehensive understanding on polar environments (iCUPE) - concept and initial results
    Atmospheric Chemistry and Physics. 2020; 20(14): 8551-8592. https://doi.org/10.5194/acp-20-8551-2020
    DORA PSI
  • Pospisilova V, Lopez-Hilfiker FD, Bell DM, El Haddad I, Mohr C, Huang W, et al.
    On the fate of oxygenated organic molecules in atmospheric aerosol particles
    Science Advances. 2020; 6(11): eaax8922 (11 pp.). https://doi.org/10.1126/sciadv.aax8922
    DORA PSI
  • Puthussery JV, Singh A, Rai P, Bhattu D, Kumar V, Vats P, et al.
    Real-time measurements of PM2.5 oxidative potential using a dithiothreitol assay in Delhi, India
    Environmental Science and Technology Letters. 2020; 7(7): 504-510. https://doi.org/10.1021/acs.estlett.0c00342
    DORA PSI
  • Qi L, Vogel AL, Esmaeilirad S, Cao L, Zheng J, Jaffrezo J-L, et al.
    A 1-year characterization of organic aerosol composition and sources using an extractive electrospray ionization time-of-flight mass spectrometer (EESI-TOF)
    Atmospheric Chemistry and Physics. 2020; 20(13): 7875-7893. https://doi.org/10.5194/acp-20-7875-2020
    DORA PSI
  • Rai P, Furger M, El Haddad I, Kumar V, Wang L, Singh A, et al.
    Real-time measurement and source apportionment of elements in Delhi's atmosphere
    Science of the Total Environment. 2020; 742: 140332 (16 pp.). https://doi.org/10.1016/j.scitotenv.2020.140332
    DORA PSI
  • Rai P, Furger M, Slowik JG, Canonaco F, Fröhlich R, Hüglin C, et al.
    Source apportionment of highly time-resolved elements during a firework episode from a rural freeway site in Switzerland
    Atmospheric Chemistry and Physics. 2020; 20(3): 1657-1674. https://doi.org/10.5194/acp-20-1657-2020
    DORA PSI
  • Rigler M, Drinovec L, Lavrič G, Vlachou A, Prévôt ASH, Jaffrezo JL, et al.
    The new instrument using a TC-BC (total carbon-black carbon) method for the online measurement of carbonaceous aerosols
    Atmospheric Measurement Techniques. 2020; 13(8): 4333-4351. https://doi.org/10.5194/amt-13-4333-2020
    DORA PSI
  • Tobler A, Bhattu D, Canonaco F, Lalchandani V, Shukla A, Thamban NM, et al.
    Chemical characterization of PM2.5 and source apportionment of organic aerosol in New Delhi, India
    Science of the Total Environment. 2020; 745: 140924 (12 pp.). https://doi.org/10.1016/j.scitotenv.2020.140924
    DORA PSI
  • Tobler AK, Skiba A, Wang DS, Croteau P, Styszko K, Nęcki J, et al.
    Improved chloride quantification in quadrupole aerosol chemical speciation monitors (Q-ACSMs)
    Atmospheric Measurement Techniques. 2020; 13(10): 5293-5301. https://doi.org/10.5194/amt-13-5293-2020
    DORA PSI
  • Wang L, Slowik JG, Tripathi N, Bhattu D, Rai P, Kumar V, et al.
    Source characterization of volatile organic compounds measured by proton-transfer-reaction time-of-flight mass spectrometers in Delhi, India
    Atmospheric Chemistry and Physics. 2020; 20(16): 9753-9770. https://doi.org/10.5194/acp-20-9753-2020
    DORA PSI
  • Aksoyoglu S, Jiang J, Oikonomakis E, Prévôt ASH
    Sensitivity of ammonia and particulate nitrate in Europe to dry deposition parameterization
    Presented at: 19th international conference on harmonisation within atmospheric dispersion modelling for regulatory purposes (HARMO 2019); June 3-6, 2019; Bruges, Belgium.
    DORA PSI
  • Bhattu D, Zotter P, Zhou J, Stefenelli G, Klein F, Bertrand A, et al.
    Effect of stove technology and combustion conditions on gas and particulate emissions from residential biomass combustion
    Environmental Science and Technology. 2019; 53(4): 2209-2219. https://doi.org/10.1021/acs.est.8b05020
    DORA PSI
  • Blanco-Alegre C, Calvo AI, Coz E, Castro A, Oduber F, Prévôt ASH, et al.
    Quantification of source specific black carbon scavenging using an aethalometer and a disdrometer
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