Dr. Jay Gates Slowik

Kurzbeschreibung
Scientist
Paul Scherrer Institute PSI
Forschungsstrasse 111
5232 Villigen PSI
Switzerland
  • Characterization of aerosol chemical and physical properties using aerosol mass spectrometry and integrated measurements.
  • Organic aerosol source identification and apportionment by statistical analysis (e.g. positive matrix factorization).
  • Development of novel measurement techniques for analysis of organic aerosol formation and aging.
  • Surdu M, Top J, Yang B, Zhang J, Slowik JG, Prévôt ASH, et al.
    Real-time identification of aerosol-phase carboxylic acid production using extractive electrospray ionization mass spectrometry
    Environmental Science and Technology. 2024; 58: 8857-8866. https://doi.org/10.1021/acs.est.4c01605
    DORA PSI
  • Skiba A, Styszko K, Tobler A, Casotto R, Gorczyca Z, Furman P, et al.
    Source attribution of carbonaceous fraction of particulate matter in the urban atmosphere based on chemical and carbon isotope composition
    Scientific Reports. 2024; 14(1): 7234 (14 pp.). https://doi.org/10.1038/s41598-024-57829-x
    DORA PSI
  • Wang T, Li K, Bell DM, Zhang J, Cui T, Surdu M, et al.
    Large contribution of in-cloud production of secondary organic aerosol from biomass burning emissions
    npj Climate and Atmospheric Science. 2024; 7(1): 149 (9 pp.). https://doi.org/10.1038/s41612-024-00682-6
    DORA PSI
  • Cui T, Manousakas MI, Wang Q, Uzu G, Hao Y, Khare P, et al.
    Composition and sources of organic aerosol in two megacities in Western China using complementary mass spectrometric and statistical techniques
    ACS ES&T Air. 2024; 1(9): 1053-1065. https://doi.org/10.1021/acsestair.4c00051
    DORA PSI
  • Zhang Q, Li X, Li X, Zhang R, Ren B, Che H, et al.
    Lung cell injury risks of PM2.5 exposure in the high humidity and low solar radiation environment of southwestern China
    Atmospheric Environment. 2024; 338: 120794 (15 pp.). https://doi.org/10.1016/j.atmosenv.2024.120794
    DORA PSI
  • Li K, Zhang J, Bell DM, Wang T, Lamkaddam H, Cui T, et al.
    Uncovering the dominant contribution of intermediate volatility compounds in secondary organic aerosol formation from biomass-burning emissions
    National Science Review. 2024; 11(3): nwae014 (9 pp.). https://doi.org/10.1093/nsr/nwae014
    DORA PSI
  • Zhang J, Zuend A, Top J, Surdu M, EI Haddad I, Slowik JG, et al.
    Estimation of the volatility and apparent activity coefficient of levoglucosan in wood-burning organic aerosols
    Environmental Science and Technology Letters. 2024; 11(11): 1214-1219. https://doi.org/10.1021/acs.estlett.4c00608
    DORA PSI
  • El Haddad I, Vienneau D, Daellenbach KR, Modini R, Slowik JG, Upadhyay A, et al.
    Opinion: How will advances in aerosol science inform our understanding of the health impacts of outdoor particulate pollution?
    Atmospheric Chemistry and Physics. 2024; 24(20): 11981-12011. https://doi.org/10.5194/acp-24-11981-2024
    DORA PSI
  • Wang L, Slowik JG, Klein F, Stefenelli G, Pospisilova V, Tong Y, et al.
    Characteristics of oxygenated volatile organic compounds in Zurich, Switzerland: Sources, composition, and implication for secondary aerosol formation
    Chemosphere. 2024; 368: 143686 (9 pp.). https://doi.org/10.1016/j.chemosphere.2024.143686
    DORA PSI
  • Bhattu D, Tripathi SN, Bhowmik HS, Moschos V, Lee CP, Rauber M, et al.
    Local incomplete combustion emissions define the PM2.5 oxidative potential in Northern India
    Nature Communications. 2024; 15(1): 3517 (13 pp.). https://doi.org/10.1038/s41467-024-47785-5
    DORA PSI
  • Decker ZCJ, Alpert PA, Ammann M, Anet JG, Bauer M, Cui T, et al.
    Emission and formation of aircraft engine oil ultrafine particles
    ACS ES&T Air. 2024; 1(12): 1662-1672. https://doi.org/10.1021/acsestair.4c00184
    DORA PSI
  • Cheung RKY, Qi L, Manousakas MI, Puthussery JV, Zheng Y, Koenig TK, et al.
    Major source categories of PM2.5 oxidative potential in wintertime Beijing and surroundings based on online dithiothreitol-based field measurements
    Science of the Total Environment. 2024; 928: 172345 (14 pp.). https://doi.org/10.1016/j.scitotenv.2024.172345
    DORA PSI
  • Kumar V, Slowik JG, Baltensperger U, Prevot ASH, Bell DM
    Time-resolved molecular characterization of secondary organic aerosol formed from OH and NO3 radical initiated oxidation of a mixture of aromatic precursors
    Environmental Science and Technology. 2023; 57(31): 11572-11582. https://doi.org/10.1021/acs.est.3c00225
    DORA PSI
  • Mishra S, Tripathi SN, Kanawade VP, Haslett SL, Dada L, Ciarelli G, et al.
    Rapid night-time nanoparticle growth in Delhi driven by biomass-burning emissions
    Nature Geoscience. 2023; 16(3): 224-230. https://doi.org/10.1038/s41561-023-01138-x
    DORA PSI
  • Haslett SL, Bell DM, Kumar V, Slowik JG, Wang DS, Mishra S, et al.
    Nighttime NO emissions strongly suppress chlorine and nitrate radical formation during the winter in Delhi
    Atmospheric Chemistry and Physics. 2023; 23(16): 9023-9036. https://doi.org/10.5194/acp-23-9023-2023
    DORA PSI
  • Bell DM, Zhang J, Top J, Bogler S, Surdu M, Slowik JG, et al.
    Sensitivity constraints of extractive electrospray for a model system and secondary organic aerosol
    Analytical Chemistry. 2023; 95(37): 13788-13795. https://doi.org/10.1021/acs.analchem.3c00441
    DORA PSI
  • Zhang Y, Tian J, Wang Q, Qi L, Manousakas MI, Han Y, et al.
    High-time-resolution chemical composition and source apportionment of PM2.5 in northern Chinese cities: implications for policy
    Atmospheric Chemistry and Physics. 2023; 23(16): 9455-9471. https://doi.org/10.5194/acp-23-9455-2023
    DORA PSI
  • Bell DM, Pospisilova V, Lopez-Hilfiker F, Bertrand A, Xiao M, Zhou X, et al.
    Effect of OH scavengers on the chemical composition of α-pinene secondary organic aerosol
    Environmental Science: Atmospheres. 2023; 3(1): 115-123. https://doi.org/10.1039/d2ea00105e
    DORA PSI
  • Zhang J, Li K, Wang T, Gammelsæter E, Cheung RKY, Surdu M, et al.
    Bulk and molecular-level composition of primary organic aerosol from wood, straw, cow dung, and plastic burning
    Atmospheric Chemistry and Physics. 2023; 23(22): 14561-14576. https://doi.org/10.5194/acp-23-14561-2023
    DORA PSI
  • Casotto R, Skiba A, Rauber M, Strähl J, Tobler A, Bhattu D, et al.
    Organic aerosol sources in Krakow, Poland, before implementation of a solid fuel residential heating ban
    Science of the Total Environment. 2023; 855: 158655 (12 pp.). https://doi.org/10.1016/j.scitotenv.2022.158655
    DORA PSI
  • Casotto R, Cvitešić Kušan A, Bhattu D, Cui T, Manousakas MI, Frka S, et al.
    Chemical composition and sources of organic aerosol on the Adriatic coast in Croatia
    Atmospheric Environment: X. 2022; 13: 100159 (14 pp.). https://doi.org/10.1016/j.aeaoa.2022.100159
    DORA PSI
  • Lee CP, Surdu M, Bell DM, Dommen J, Xiao M, Zhou X, et al.
    High-frequency gaseous and particulate chemical characterization using extractive electrospray ionization mass spectrometry (Dual-Phase-EESI-TOF)
    Atmospheric Measurement Techniques. 2022; 15(12): 3747-3760. https://doi.org/10.5194/amt-15-3747-2022
    DORA PSI
  • Tong Y, Qi L, Stefenelli G, Wang DS, Canonaco F, Baltensperger U, et al.
    Quantification of primary and secondary organic aerosol sources by combined factor analysis of extractive electrospray ionisation and aerosol mass spectrometer measurements (EESI-TOF and AMS)
    Atmospheric Measurement Techniques. 2022; 15(24): 7265-7291. https://doi.org/10.5194/amt-15-7265-2022
    DORA PSI
  • Qi L, Bozzetti C, Corbin JC, Daellenbach KR, El Haddad I, Zhang Q, et al.
    Source identification and characterization of organic nitrogen in atmospheric aerosols at a suburban site in China
    Science of the Total Environment. 2022; 818: 151800 (11 pp.). https://doi.org/10.1016/j.scitotenv.2021.151800
    DORA PSI
  • Manousakas M, Furger M, Daellenbach KR, Canonaco F, Chen G, Tobler A, et al.
    Source identification of the elemental fraction of particulate matter using size segregated, highly time-resolved data and an optimized source apportionment approach
    Atmospheric Environment: X. 2022; 14: 100165 (15 pp.). https://doi.org/10.1016/j.aeaoa.2022.100165
    DORA PSI
  • Kumar V, Giannoukos S, Haslett SL, Tong Y, Singh A, Bertrand A, et al.
    Highly time-resolved chemical speciation and source apportionment of organic aerosol components in Delhi, India, using extractive electrospray ionization mass spectrometry
    Atmospheric Chemistry and Physics. 2022; 22(11): 7739-7761. https://doi.org/10.5194/acp-22-7739-2022
    DORA PSI
  • Chen G, Canonaco F, Slowik JG, Daellenbach KR, Tobler A, Petit J-E, et al.
    Real-time source apportionment of organic aerosols in three European cities
    Environmental Science and Technology. 2022; 56(22): 15290-15297. https://doi.org/10.1021/acs.est.2c02509
    DORA PSI
  • Amaladhasan DA, Heyn C, Hoyle CR, El Haddad I, Elser M, Pieber SM, et al.
    Modelling the gas-particle partitioning and water uptake of isoprene-derived secondary organic aerosol at high and low relative humidity
    Atmospheric Chemistry and Physics. 2022; 22(1): 215-244. https://doi.org/10.5194/acp-22-215-2022
    DORA PSI
  • Chen G, Canonaco F, Tobler A, Aas W, Alastuey A, Allan J, et al.
    European aerosol phenomenology - 8: harmonised source apportionment of organic aerosol using 22 year-long ACSM/AMS datasets
    Environment International. 2022; 166: 107325 (18 pp.). https://doi.org/10.1016/j.envint.2022.107325
    DORA PSI
  • Tripathi N, Sahu LK, Wang L, Vats P, Soni M, Kumar P, et al.
    Characteristics of VOC composition at urban and suburban sites of New Delhi, India in winter
    Journal of Geophysical Research: Atmospheres. 2022; 127(12): e2021JD035342 (28 pp.). https://doi.org/10.1029/2021JD035342
    DORA PSI
  • Via M, Chen G, Canonaco F, Daellenbach KR, Chazeau B, Chebaicheb H, et al.
    Rolling vs. seasonal PMF: real-world multi-site and synthetic dataset comparison
    Atmospheric Measurement Techniques. 2022; 15(18): 5479-5495. https://doi.org/10.5194/amt-15-5479-2022
    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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • 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
  • Stefenelli G, Pospisilova V, Lopez-Hilfiker FD, Daellenbach KR, Hüglin C, Tong Y, et al.
    Organic aerosol source apportionment in Zurich using an extractive electrospray ionization time-of-flight mass spectrometer (EESI-TOF-MS) - part 1: biogenic influences and day-night chemistry in summer
    Atmospheric Chemistry and Physics. 2019; 19(23): 14825-14848. https://doi.org/10.5194/acp-19-14825-2019
    DORA PSI
  • Zhou J, Elser M, Huang R-J, Krapf M, Fröhlich R, Bhattu D, et al.
    Predominance of secondary organic aerosol to particle-bound reactive oxygen species activity in fine ambient aerosol
    Atmospheric Chemistry and Physics. 2019; 19(23): 14703-14720. https://doi.org/10.5194/acp-19-14703-2019
    DORA PSI
  • Lopez-Hilfiker FD, Pospisilova V, Huang W, Kalberer M, Mohr C, Stefenelli G, et al.
    An extractive electrospray ionization time-of-flight mass spectrometer (EESI-TOF) for online measurement of atmospheric aerosol particles
    Atmospheric Measurement Techniques. 2019; 12(9): 4867-4886. https://doi.org/10.5194/amt-12-4867-2019
    DORA PSI
  • Stefenelli G, Jiang J, Bertrand A, Bruns EA, Pieber SM, Baltensperger U, et al.
    Secondary organic aerosol formation from smoldering and flaming combustion of biomass: a box model parametrization based on volatility basis set
    Atmospheric Chemistry and Physics. 2019; 19(17): 11461-11484. https://doi.org/10.5194/acp-19-11461-2019
    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
  • Qi L, Chen M, Stefenelli G, Pospisilova V, Tong Y, Bertrand A, et al.
    Organic aerosol source apportionment in Zurich using an extractive electrospray ionization time-of-flight mass spectrometer (EESI-TOF-MS) – part 2: biomass burning influences in winter
    Atmospheric Chemistry and Physics. 2019; 19(12): 8037-8062. https://doi.org/10.5194/acp-19-8037-2019
    DORA PSI
  • Daellenbach KR, El-Haddad I, Karvonen L, Vlachou A, Corbin JC, Slowik JG, et al.
    Insights into organic-Aerosol sources via a novel laser-desorption/ionization mass spectrometry technique applied to one year of PM10 samples from nine sites in central Europe
    Atmospheric Chemistry and Physics. 2018; 18(3): 2155-2174. https://doi.org/10.5194/acp-18-2155-2018
    DORA PSI
  • Bertrand A, Stefenelli G, Jen CN, Pieber SM, Bruns EA, Ni H, et al.
    Evolution of the chemical fingerprint of biomass burning organic aerosol during aging
    Atmospheric Chemistry and Physics. 2018; 18(10): 7607-7624. https://doi.org/10.5194/acp-18-7607-2018
    DORA PSI
  • Bertrand A, Stefenelli G, Pieber SM, Bruns EA, Temime-Roussel B, Slowik JG, et al.
    Influence of the vapor wall loss on the degradation rate constants in chamber experiments of levoglucosan and other biomass burning markers
    Atmospheric Chemistry and Physics. 2018; 18(15): 10915-10930. https://doi.org/10.5194/acp-18-10915-2018
    DORA PSI
  • Zhou J, Zotter P, Bruns EA, Stefenelli G, Bhattu D, Brown S, et al.
    Particle-bound reactive oxygen species (PB-ROS) emissions and formation pathways in residential wood smoke under different combustion and aging conditions
    Atmospheric Chemistry and Physics. 2018; 18(10): 6985-7000. https://doi.org/10.5194/acp-18-6985-2018
    DORA PSI
  • Kiliç D, El Haddad I, Brem BT, Bruns E, Bozetti C, Corbin J, et al.
    Identification of secondary aerosol precursors emitted by an aircraft turbofan
    Atmospheric Chemistry and Physics. 2018; 18(10): 7379-7391. https://doi.org/10.5194/acp-18-7379-2018
    DORA PSI
  • Zhu Q, Huang X-F, Cao L-M, Wei L-T, Zhang B, He L-Y, et al.
    Improved source apportionment of organic aerosols in complex urban air pollution using the multilinear engine (ME-2)
    Atmospheric Measurement Techniques. 2018; 11(2): 1049-1060. https://doi.org/10.5194/amt-11-1049-2018
    DORA PSI
  • Elser M, El-Haddad I, Maasikmets M, Bozzetti C, Wolf R, Ciarelli G, et al.
    High contributions of vehicular emissions to ammonia in three European cities derived from mobile measurements
    Atmospheric Environment. 2018; 175: 210-220. https://doi.org/10.1016/j.atmosenv.2017.11.030
    DORA PSI
  • Klein F, Pieber SM, Ni H, Stefenelli G, Bertrand A, Kilic D, et al.
    Characterization of gas-phase organics using proton transfer reaction time-of-flight mass spectrometry: residential coal combustion
    Environmental Science and Technology. 2018; 52(5): 2612-2617. https://doi.org/10.1021/acs.est.7b03960
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  • Pieber SM, Kumar NK, Klein F, Comte P, Bhattu D, Dommen J, et al.
    Gas-phase composition and secondary organic aerosol formation from standard and particle filter-retrofitted gasoline direct injection vehicles investigated in a batch and flow reactor
    Atmospheric Chemistry and Physics. 2018; 18(13): 9929-9954. https://doi.org/10.5194/acp-18-9929-2018
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  • Zhang Y-L, El-Haddad I, Huang R-J, Ho K-F, Cao J-J, Han Y, et al.
    Large contribution of fossil fuel derived secondary organic carbon to water soluble organic aerosols in winter haze in China
    Atmospheric Chemistry and Physics. 2018; 18(6): 4005-4017. https://doi.org/10.5194/acp-18-4005-2018
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  • Kumar NK, Corbin JC, Bruns EA, Massabó D, Slowik JG, Drinovec L, et al.
    Production of particulate brown carbon during atmospheric aging of residential wood-burning emissions
    Atmospheric Chemistry and Physics. 2018; 18(24): 17843-17861. https://doi.org/10.5194/acp-18-17843-2018
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  • Bertrand A, Stefenelli G, Bruns EA, Pieber SM, Temime-Roussel B, Slowik JG, et al.
    Primary emissions and secondary aerosol production potential from woodstoves for residential heating: influence of the stove technology and combustion efficiency
    Atmospheric Environment. 2017; 169: 65-79. https://doi.org/10.1016/j.atmosenv.2017.09.005
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  • Zhao Y, Chan JK, Lopez-Hilfiker FD, McKeown MA, D'Ambro EL, Slowik JG, et al.
    An electrospray chemical ionization source for real-time measurement of atmospheric organic and inorganic vapors
    Atmospheric Measurement Techniques. 2017; 10(10): 3609-3625. https://doi.org/10.5194/amt-10-3609-2017
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  • Heringa MF, Slowik JG, Goldmann M, Signorell R, Hemberger P, Bodi A
    The distant double bond determines the fate of the carboxylic group in the dissociative photoionization of oleic acid
    ChemPhysChem. 2017; 18(24): 3595-3604. https://doi.org/10.1002/cphc.201700983
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  • Daellenbach KR, Stefenelli G, Bozzetti C, Vlachou A, Fermo P, Gonzalez R, et al.
    Long-term chemical analysis and organic aerosol source apportionment at nine sites in central Europe: source identification and uncertainty assessment
    Atmospheric Chemistry and Physics. 2017; 17(21): 13265-13282. https://doi.org/10.5194/acp-17-13265-2017
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  • Kilic D, Brem BT, Klein F, El-Haddad I, Durdina L, Rindlisbacher T, et al.
    Characterization of gas-phase organics using proton transfer reaction time-of-flight mass spectrometry: aircraft turbine engines
    Environmental Science and Technology. 2017; 51(7): 3621-3629. https://doi.org/10.1021/acs.est.6b04077
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  • Bozzetti C, El Haddad I, Salameh D, Daellenbach KR, Fermo P, Gonzalez R, et al.
    Organic aerosol source apportionment by offline-AMS over a full year in Marseille
    Atmospheric Chemistry and Physics. 2017; 17(13): 8247-8268. https://doi.org/10.5194/acp-17-8247-2017
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  • Schmale J, Henning S, Henzing B, Keskinen H, Sellegri K, Ovadnevaite J, et al.
    Collocated observations of cloud condensation nuclei, particle size distributions, and chemical composition
    Scientific Data. 2017; 4: 170003 (26 pp.). https://doi.org/10.1038/sdata.2017.3
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  • Platt SM, El Haddad I, Pieber SM, Zardini AA, Suarez-Bertoa R, Clairotte M, et al.
    Gasoline cars produce more carbonaceous particulate matter than modern filter-equipped diesel cars
    Scientific Reports. 2017; 7: 4926 (9 pp.). https://doi.org/10.1038/s41598-017-03714-9
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  • Krapf M, Künzi L, Allenbach S, Bruns EA, Gavarini I, El-Haddad I, et al.
    Wood combustion particles induce adverse effects to normal and diseased airway epithelia
    Environmental Science: Processes and Impacts. 2017; 19(4): 538-548. https://doi.org/10.1039/c6em00586a
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  • Tsagkogeorgas G, Roldin P, Duplissy J, Rondo L, Tröstl J, Slowik JG, et al.
    Evaporation of sulfate aerosols at low relative humidity
    Atmospheric Chemistry and Physics. 2017; 17(14): 8923-8938. https://doi.org/10.5194/acp-17-8923-2017
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  • Stirnweis L, Marcolli C, Dommen J, Barmet P, Frege C, Platt SM, et al.
    Assessing the influence of NOx concentrations and relative humidity on secondary organic aerosol yields from α-pinene photo-oxidation through smog chamber experiments and modelling calculations
    Atmospheric Chemistry and Physics. 2017; 17(8): 5035-5061. https://doi.org/10.5194/acp-17-5035-2017
    DORA PSI
  • Bruns EA, Slowik JG, El Haddad I, Kilic D, Klein F, Dommen J, et al.
    Characterization of gas-phase organics using proton transfer reaction time-of-flight mass spectrometry: fresh and aged residential wood combustion emissions
    Atmospheric Chemistry and Physics. 2017; 17(1): 705-720. https://doi.org/10.5194/acp-17-705-2017
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  • Wolf R, El-Haddad I, Slowik JG, Dällenbach K, Bruns E, Vasilescu J, et al.
    Contribution of bacteria-like particles to PM2.5 aerosol in urban and rural environments
    Atmospheric Environment. 2017; 160: 97-106. https://doi.org/10.1016/j.atmosenv.2017.04.001
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  • Bozzetti C, Sosedova Y, Xiao M, Daellenbach KR, Ulevicius V, Dudoitis V, et al.
    Argon offline-AMS source apportionment of organic aerosol over yearly cycles for an urban, rural, and marine site in northern Europe
    Atmospheric Chemistry and Physics. 2017; 17(1): 117-141. https://doi.org/10.5194/acp-17-117-2017
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  • Furger M, Minguillón MC, Yadav V, Slowik JG, Hüglin C, Fröhlich R, et al.
    Elemental composition of ambient aerosols measured with high temporal resolution using an online XRF spectrometer
    Atmospheric Measurement Techniques. 2017; 10(6): 2061-2076. https://doi.org/10.5194/amt-10-2061-2017
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  • Bianchi F, Barmet P, Stirnweis L, El Haddad I, Platt SM, Saurer M, et al.
    Contribution of methane to aerosol carbon mass
    Atmospheric Environment. 2016; 141: 41-47. https://doi.org/10.1016/j.atmosenv.2016.06.036
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  • Byčenkienė S, Ulevicius V, Bozzetti C, Vlachou A, Plauškaitė K, Mordas G, et al.
    Fossil and non-fossil source contributions to atmospheric carbonaceous aerosols during extreme spring grassland fires in Eastern Europe
    Atmospheric Chemistry and Physics. 2016; 16(9): 5513-5529. https://doi.org/10.5194/acp-16-5513-2016
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  • Jimenez JL, Canagaratna MR, Drewnick F, Allan JD, Rami Alfarra M, Middlebrook AM, et al.
    Comment on "The effects of molecular weight and thermal decomposition on the sensitivity of a thermal desorption aerosol mass spectrometer"
    Aerosol Science and Technology. 2016; 50(9): i-xv. https://doi.org/10.1080/02786826.2016.1205728
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  • Bruns EA, El Haddad I, Slowik JG, Kilic D, Klein F, Baltensperger U, et al.
    Identification of significant precursor gases of secondary organic aerosols from residential wood combustion
    Scientific Reports. 2016; 6: 27881 (9 pp.). https://doi.org/10.1038/srep27881
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  • Daellenbach KR, Bozzetti C, Křepelová A, Canonaco F, Wolf R, Zotter P, et al.
    Characterization and source apportionment of organic aerosol using offline aerosol mass spectrometry
    Atmospheric Measurement Techniques. 2016; 9(1): 23-39. https://doi.org/10.5194/amt-9-23-2016
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  • Pieber SM, El Haddad I, Slowik JG, Canagaratna MR, Jayne JT, Platt SM, et al.
    Inorganic salt interference on CO2+ in aerodyne AMS and ACSM organic aerosol composition studies
    Environmental Science and Technology. 2016; 50(19): 10494-10503. https://doi.org/10.1021/acs.est.6b01035
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  • Klein F, Platt SM, Farren NJ, Detournay A, Bruns EA, Bozzetti C, et al.
    Characterization of gas-phase organics using proton transfer reaction time-of-flight mass spectrometry: cooking emissions
    Environmental Science and Technology. 2016; 50(3): 1243-1250. https://doi.org/10.1021/acs.est.5b04618
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  • Elser M, Huang R-J, Wolf R, Slowik JG, Wang Q, Canonaco F, et al.
    New insights into PM2.5 chemical composition and sources in two major cities in China during extreme haze events using aerosol mass spectrometry
    Atmospheric Chemistry and Physics. 2016; 16(5): 3207-3225. https://doi.org/10.5194/acp-16-3207-2016
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  • Elser M, Bozzetti C, El-Haddad I, Maasikmets M, Teinemaa E, Richter R, et al.
    Urban increments of gaseous and aerosol pollutants and their sources using mobile aerosol mass spectrometry measurements
    Atmospheric Chemistry and Physics. 2016; 16(11): 7117-7134. https://doi.org/10.5194/acp-16-7117-2016
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  • Heringa MF, Slowik JG, Prévôt ASH, Baltensperger U, Hemberger P, Bodi A
    Dissociative ionization mechanism and appearance energies in adipic acid revealed by imaging photoelectron photoion coincidence, selective deuteration, and calculations
    Journal of Physical Chemistry A. 2016; 120(20): 3397-3405. https://doi.org/10.1021/acs.jpca.6b00908
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  • Klein F, Farren NJ, Bozzetti C, Daellenbach KR, Kilic D, Kumar NK, et al.
    Indoor terpene emissions from cooking with herbs and pepper and their secondary organic aerosol production potential
    Scientific Reports. 2016; 6: 36623 (7 pp.). https://doi.org/10.1038/srep36623
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  • Hoyle CR, Fuchs C, Järvinen E, Saathoff H, Dias A, El Haddad I, et al.
    Aqueous phase oxidation of sulphur dioxide by ozone in cloud droplets
    Atmospheric Chemistry and Physics. 2016; 16(3): 1693-1712. https://doi.org/10.5194/acp-16-1693-2016
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  • Järvinen E, Ignatius K, Nichman L, Kristensen TB, Fuchs C, Hoyle CR, et al.
    Observation of viscosity transition in α-pinene secondary organic aerosol
    Atmospheric Chemistry and Physics. 2016; 16(7): 4423-4438. https://doi.org/10.5194/acp-16-4423-2016
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  • Bozzetti C, Daellenbach KR, Hueglin C, Fermo P, Sciare J, Kasper-Giebl A, et al.
    Size-resolved identification, characterization, and quantification of primary biological organic aerosol at a European rural site
    Environmental Science and Technology. 2016; 50(7): 3425-3434. https://doi.org/10.1021/acs.est.5b05960
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  • Beekmann M, Prévôt ASH, Drewnick F, Sciare J, Pandis SN, Denier van der Gon HAC, et al.
    In situ, satellite measurement and model evidence on the dominant regional contribution to fine particulate matter levels in the Paris megacity
    Atmospheric Chemistry and Physics. 2015; 15(16): 9577-9591. https://doi.org/10.5194/acp-15-9577-2015
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  • Zhang Y-L, Huang R-J, El Haddad I, Ho K-F, Cao J-J, Han Y, et al.
    Fossil vs. non-fossil sources of fine carbonaceous aerosols in four Chinese cities during the extreme winter haze episode of 2013
    Atmospheric Chemistry and Physics. 2015; 15(3): 1299-1312. https://doi.org/10.5194/acp-15-1299-2015
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  • Bruns EA, El Haddad I, Keller A, Klein F, Kumar NK, Pieber SM, et al.
    Inter-comparison of laboratory smog chamber and flow reactor systems on organic aerosol yield and composition
    Atmospheric Measurement Techniques. 2015; 8(6): 2315-2332. https://doi.org/10.5194/amt-8-2315-2015
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  • Mongin D, Slowik JG, Schubert E, Brisset J-G, Berti N, Moret M, et al.
    Non-linear photochemical pathways in laser-induced atmospheric aerosol formation
    Scientific Reports. 2015; 5: 14978 (9 pp.). https://doi.org/10.1038/srep14978
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  • Fröhlich R, Crenn V, Setyan A, Belis CA, Canonaco F, Favez O, et al.
    ACTRIS ACSM intercomparison - Part 2: intercomparison of ME-2 organic source apportionment results from 15 individual, co-located aerosol mass spectrometers
    Atmospheric Measurement Techniques. 2015; 8(6): 2555-2576. https://doi.org/10.5194/amt-8-2555-2015
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  • Visser S, Slowik JG, Furger M, Zotter P, Bukowiecki N, Canonaco F, et al.
    Advanced source apportionment of size-resolved trace elements at multiple sites in London during winter
    Atmospheric Chemistry and Physics. 2015; 15(19): 11291-11309. https://doi.org/10.5194/acp-15-11291-2015
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  • Visser S, Slowik JG, Furger M, Zotter P, Bukowiecki N, Dressler R, et al.
    Kerb and urban increment of highly time-resolved trace elements in PMsub>10, PM2.5 and PM1.0 winter aerosol in London during ClearfLo 2012
    Atmospheric Chemistry and Physics. 2015; 15(5): 2367-2386. https://doi.org/10.5194/acp-15-2367-2015
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  • Wolf R, Slowik JG, Schaupp C, Amato P, Saathoff H, Möhler O, et al.
    Characterization of ice-nucleating bacteria using on-line electron impact ionization aerosol mass spectrometry
    Journal of Mass Spectrometry. 2015; 50(4): 662-671. https://doi.org/10.1002/jms.3573
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  • Bannan TJ, Murray Booth A, Bacak A, Muller JBA, Leather KE, Le Breton M, et al.
    The first UK measurements of nitryl chloride using a chemical ionization mass spectrometer in central London in the summer of 2012, and an investigation of the role of Cl atom oxidation
    Journal of Geophysical Research: Atmospheres. 2015; 120(11): 5638-5657. https://doi.org/10.1002/2014JD022629
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  • Mueller L, Jakobi G, Czech H, Stengel B, Orasche J, Arteaga-Salas JM, et al.
    Characteristics and temporal evolution of particulate emissions from a ship diesel engine
    Applied Energy. 2015; 155: 204-217. https://doi.org/10.1016/j.apenergy.2015.05.115
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  • Wolf R, El Haddad I, Crippa M, Decesari S, Slowik JG, Poulain L, et al.
    Marine and urban influences on summertime PM2.5 aerosol in the Po basin using mobile measurements
    Atmospheric Environment. 2015; 120: 447-454. https://doi.org/10.1016/j.atmosenv.2015.09.007
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  • Fröhlich R, Cubison MJ, Slowik JG, Bukowiecki N, Canonaco F, Croteau PL, et al.
    Fourteen months of on-line measurements of the non-refractory submicron aerosol at the Jungfraujoch (3580 m a.s.l.) - chemical composition, origins and organic aerosol sources
    Atmospheric Chemistry and Physics. 2015; 15(19): 11373-11398. https://doi.org/10.5194/acp-15-11373-2015
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  • Bruns EA, Krapf M, Orasche J, Huang Y, Zimmermann R, Drinovec L, et al.
    Characterization of primary and secondary wood combustion products generated under different burner loads
    Atmospheric Chemistry and Physics. 2015; 15(5): 2825-2841. https://doi.org/10.5194/acp-15-2825-2015
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  • Künzi L, Krapf M, Daher N, Dommen J, Jeannet N, Schneider S, et al.
    Toxicity of aged gasoline exhaust particles to normal and diseased airway epithelia
    Scientific Reports. 2015; 5: 11801 (10 pp.). https://doi.org/10.1038/srep11801
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  • Canonaco F, Slowik JG, Baltensperger U, Prévôt ASH
    Seasonal differences in oxygenated organic aerosol composition: implications for emissions sources and factor analysis
    Atmospheric Chemistry and Physics. 2015; 15(12): 6993-7002. https://doi.org/10.5194/acp-15-6993-2015
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  • Fuzzi S, Baltensperger U, Carslaw K, Decesari S, Denier van der Gon H, Facchini MC, et al.
    Particulate matter, air quality and climate: lessons learned and future needs
    Atmospheric Chemistry and Physics. 2015; 15(14): 8217-8299. https://doi.org/10.5194/acp-15-8217-2015
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  • Platt SM, Haddad I, Pieber SM, Huang R-J, Zardini AA, Clairotte M, et al.
    Two-stroke scooters are a dominant source of air pollution in many cities
    Nature Communications. 2014; 5: 3749 (7 pp.). https://doi.org/10.1038/ncomms4749
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  • McGuire ML, Chang RY-W, Slowik JG, Jeong C-H, Healy RM, Lu G, et al.
    Enhancing non-refractory aerosol apportionment from an urban industrial site through receptor modeling of complete high time-resolution aerosol mass spectra
    Atmospheric Chemistry and Physics. 2014; 14(15): 8017-8042. https://doi.org/10.5194/acp-14-8017-2014
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  • Zardini AA, Platt SM, Clairotte M, El Haddad I, Temime-Roussel B, Marchand N, et al.
    Effects of alkylate fuel on exhaust emissions and secondary aerosol formation of a 2-stroke and a 4-stroke scooter
    Atmospheric Environment. 2014; 94: 307-315. https://doi.org/10.1016/j.atmosenv.2014.03.024
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  • Huang R-J, Zhang Y, Bozzetti C, Ho K-F, Cao J-J, Han Y, et al.
    High secondary aerosol contribution to particulate pollution during haze events in China
    Nature. 2014; 514(7521): 218-222. https://doi.org/10.1038/nature13774
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  • Kampf CJ, Waxman EM, Slowik JG, Dommen J, Pfaffenberger L, Praplan AP, et al.
    Effective Henry's law partitioning and the salting constant of glyoxal in aerosols containing sulfate
    Environmental Science and Technology. 2013; 47(9): 4236-4244. https://doi.org/10.1021/es400083d
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  • Shakya KM, Liu S, Takahama S, Russell LM, Keutsch FN, Galloway MM, et al.
    Similarities in STXM-NEXAFS spectra of atmospheric particles and secondary organic aerosol generated from glyoxal, α-pinene, isoprene, 1,2,4-trimethylbenzene, and d-limonene
    Aerosol Science and Technology. 2013; 47(5): 543-555. https://doi.org/10.1080/02786826.2013.772950
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  • Pfaffenberger L, Barmet P, Slowik JG, Praplan AP, Dommen J, Prévôt ASH, et al.
    The link between organic aerosol mass loading and degree of oxygenation: an α-pinene photooxidation study
    Atmospheric Chemistry and Physics. 2013; 13(13): 6493-6506. https://doi.org/10.5194/acp-13-6493-2013
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  • Platt SM, El Haddad I, Zardini AA, Clairotte M, Astorga C, Wolf R, et al.
    Secondary organic aerosol formation from gasoline vehicle emissions in a new mobile environmental reaction chamber
    Atmospheric Chemistry and Physics. 2013; 13(18): 9141-9158. https://doi.org/10.5194/acp-13-9141-2013
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  • Baltensperger U, Bruns E, Dommen J, El Haddad I, Heringa MF, Prévôt ASH, et al.
    Holzfeuerungen: eine bedeutende Quelle von Feinstaub in der Schweiz
    Schweizerische Zeitschrift für Forstwesen. 2013; 164(12): 420-427. https://doi.org/10.3188/szf.2013.0420
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  • Keskinen H, Virtanen A, Joutsensaari J, Tsagkogeorgas G, Duplissy J, Schobesberger S, et al.
    Evolution of nanoparticle composition in CLOUD in presence of sulphuric acid, ammonia and organics
    In: Vol. 1527. AIP conference proceedings. ; 2013:291-294. https://doi.org/10.1063/1.4803260
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  • Crippa M, Canonaco F, Slowik JG, El Haddad I, DeCarlo PF, Mohr C, et al.
    Primary and secondary organic aerosol origin by combined gas-particle phase source apportionment
    Atmospheric Chemistry and Physics. 2013; 13(16): 8411-8426. https://doi.org/10.5194/acp-13-8411-2013
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  • Crippa M, El Haddad I, Slowik JG, DeCarlo PF, Mohr C, Heringa MF, et al.
    Identification of marine and continental aerosol sources in Paris using high resolution aerosol mass spectrometry
    Journal of Geophysical Research: Atmospheres. 2013; 118(4): 1950-1963. https://doi.org/10.1002/jgrd.50151
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  • Keskinen H, Virtanen A, Joutsensaari J, Tsagkogeorgas G, Duplissy J, Schobesberger S, et al.
    Evolution of particle composition in CLOUD nucleation experiments
    Atmospheric Chemistry and Physics. 2013; 13(11): 5587-5600. https://doi.org/10.5194/acp-13-5587-2013
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  • Crippa M, DeCarlo PF, Slowik JG, Mohr C, Heringa MF, Chirico R, et al.
    Wintertime aerosol chemical composition and source apportionment of the organic fraction in the metropolitan area of Paris
    Atmospheric Chemistry and Physics. 2013; 13(2): 961-981. https://doi.org/10.5194/acp-13-961-2013
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  • Fröhlich R, Cubison MJ, Slowik JG, Bukowiecki N, Prévôt ASH, Baltensperger U, et al.
    The ToF-ACSM: a portable aerosol chemical speciation monitor with TOFMS detection
    Atmospheric Measurement Techniques. 2013; 6(11): 3225-3241. https://doi.org/10.5194/amt-6-3225-2013
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  • Canonaco F, Crippa M, Slowik JG, Baltensperger U, Prévôt ASH
    SoFi, an IGOR-based interface for the efficient use of the generalized multilinear engine (ME-2) for the source apportionment: ME-2 application to aerosol mass spectrometer data
    Atmospheric Measurement Techniques. 2013; 6(12): 3649-3661. https://doi.org/10.5194/amt-6-3649-2013
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  • Heringa MF, DeCarlo PF, Chirico R, Tritscher T, Clairotte M, Mohr C, et al.
    A new method to discriminate secondary organic aerosols from different sources using high-resolution aerosol mass spectra
    Atmospheric Chemistry and Physics. 2012; 12(4): 2189-2203. https://doi.org/10.5194/acp-12-2189-2012
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  • Shantz NC, Pierce JR, Chang RY-W, Vlasenko A, Riipinen I, Sjostedt S, et al.
    Cloud condensation nuclei droplet growth kinetics of ultrafine particles during anthropogenic nucleation events
    Atmospheric Environment. 2012; 47: 389-398. https://doi.org/10.1016/j.atmosenv.2011.10.049
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  • Slowik JG, Wong JPS, Abbatt JPD
    Real-time, controlled OH-initiated oxidation of biogenic secondary organic aerosol
    Atmospheric Chemistry and Physics. 2012; 12(20): 9775-9790. https://doi.org/10.5194/acp-12-9775-2012
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  • Mohr C, DeCarlo PF, Heringa MF, Chirico R, Slowik JG, Richter R, et al.
    Identification and quantification of organic aerosol from cooking and other sources in Barcelona using aerosol mass spectrometer data
    Atmospheric Chemistry and Physics. 2012; 12(4): 1649-1665. https://doi.org/10.5194/acp-12-1649-2012
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  • McGuire ML, Jeong C-H, Slowik JG, Y.-W. Chang R, Corbin JC, Lu G, et al.
    Elucidating determinants of aerosol composition through particle-type-based receptor modeling
    Atmospheric Chemistry and Physics. 2011; 11(15): 8133-8155. https://doi.org/10.5194/acp-11-8133-2011
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  • Slowik JG, Cziczo DJ, Abbatt JPD
    Analysis of cloud condensation nuclei composition and growth kinetics using a pumped counterflow virtual impactor and aerosol mass spectrometer
    Atmospheric Measurement Techniques. 2011; 4(8): 1677-1688. https://doi.org/10.5194/amt-4-1677-2011
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  • Jeong C-H, McGuire ML, Godri KJ, Slowik JG, Rehbein PJG, Evans GJ
    Quantification of aerosol chemical composition using continuous single particle measurements
    Atmospheric Chemistry and Physics. 2011; 11(14): 7027-7044. https://doi.org/10.5194/acp-11-7027-2011
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  • Wong JPS, Lee AKY, Slowik JG, Cziczo DJ, Leaitch WR, MacDonald A, et al.
    Oxidation of ambient biogenic secondary organic aerosol by hydroxyl radicals: effects on cloud condensation nuclei activity
    Geophysical Research Letters. 2011; 38(22): L22805 (6 pp.). https://doi.org/10.1029/2011GL049351
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  • Slowik JG, Brook J, Y.-W. Chang R, Evans GJ, Hayden K, Jeong CH, et al.
    Photochemical processing of organic aerosol at nearby continental sites: Contrast between urban plumes and regional aerosol
    Atmospheric Chemistry and Physics. 2011; 11(6): 2991-3006. https://doi.org/10.5194/acp-11-2991-2011
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  • Markovic MZ, Hayden KL, Murphy JG, Makar PA, Ellis RA, Y.-W. Chang R, et al.
    The effect of meteorological and chemical factors on the agreement between observations and predictions of fine aerosol composition in southwestern Ontario during BAQS-Met
    Atmospheric Chemistry and Physics. 2011; 11(7): 3195-3210. https://doi.org/10.5194/acp-11-3195-2011
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  • Riipinen I, Pierce JR, Yli-Juuti T, Nieminen T, Häkkinen S, Ehn M, et al.
    Organic condensation: A vital link connecting aerosol formation to cloud condensation nuclei (CCN) concentrations
    Atmospheric Chemistry and Physics. 2011; 11(8): 3865-3878. https://doi.org/10.5194/acp-11-3865-2011
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  • Sjostedt SJ, Slowik JG, Brook JR, Y.-W. Chang R, Mihele C, Stroud CA, et al.
    Diurnally resolved particulate and VOC measurements at a rural site: Indication of significant biogenic secondary organic aerosol formation
    Atmospheric Chemistry and Physics. 2011; 11(12): 5745-5760. https://doi.org/10.5194/acp-11-5745-2011
    DORA PSI
  • Leaitch WR, Macdonald AM, Brickell PC, Liggio J, Sjostedt SJ, Vlasenko A, et al.
    Temperature response of the submicron organic aerosol from temperate forests
    Atmospheric Environment. 2011; 45(37): 6696-6704. https://doi.org/10.1016/j.atmosenv.2011.08.047
    DORA PSI
  • Stroud CA, Makar PA, Moran MD, Gong W, Gong S, Zhang J, et al.
    Impact of model grid spacing on regional- and urban- scale air quality predictions of organic aerosol
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    DORA PSI

1997-2001: Chemistry student at Williams College, Williamstown, MA, USA

2001-2006: Doctoral student at Boston College, Chestnut Hill, MA, USA

2006-2010: Research associate, postdoctoral fellow at University of Toronto, Toronto, ON, Canada

2011-present: Atmospheric Scientist at Paul Scherrer Institut

2003-2006: NASA Earth Systems Science Graduate Fellowship

2003 & 2004: Outstanding Poster Award, Environmental Molecular Science Institute (EMSI) Annual Workshop

2005: Participant in the Atmospheric Chemistry Colloquium for Emerging Senior Scientists (ACCESS VIII)

2011-2013: SNF Ambizione Research Fellow