Rapid growth of organic aerosol nanoparticles over a wide tropospheric temperature range

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Nucleation and growth of aerosol particles from atmospheric vapors constitutes a major source of global cloud condensation nuclei (CCN). The fraction of newly formed particles that reaches CCN sizes is highly sensitive to particle growth rates, especially for particle sizes <10 nm, where coagulat...

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Autores principales: Stolzenburg, Dominik, Fischer, Lukas, Vogel, Alexander L, Heinritzi, Martin, Schervish, Meredith, Simon, Mario, Wagner, Andrea C, Dada, Lubna, Ahonen, Lauri R, Amorim, Antonio, Baccarini, Andrea, Bauer, Paulus S, Baumgartner, Bernhard, Bergen, Anton, Bianchi, Federico, Breitenlechner, Martin, Brilke, Sophia, Mazon, Stephany Buenrostro, Chen, Dexian, Dias, António, Draper, Danielle C, Duplissy, Jonathan, Haddad, Imad El, Finkenzeller, Henning, Frege, Carla, Fuchs, Claudia, Garmash, Olga, Gordon, Hamish, He, Xucheng, Helm, Johanna, Hofbauer, Victoria, Hoyle, Christopher R, Kim, Changhyuk, Kirkby, Jasper, Kontkanen, Jenni, Kürten, Andreas, Lampilahti, Janne, Lawler, Michael, Lehtipalo, Katrianne, Leiminger, Markus, Mai, Huajun, Mathot, Serge, Mentler, Bernhard, Molteni, Ugo, Nie, Wei, Nieminen, Tuomo, Nowak, John B, Ojdanic, Andrea, Onnela, Antti, Passananti, Monica, Petäjä, Tuukka, Quéléver, Lauriane L J, Rissanen, Matti P, Sarnela, Nina, Schallhart, Simon, Tauber, Christian, Tomé, António, Wagner, Robert, Wang, Mingyi, Weitz, Lena, Wimmer, Daniela, Xiao, Mao, Yan, Chao, Ye, Penglin, Zha, Qiaozhi, Baltensperger, Urs, Curtius, Joachim, Dommen, Josef, Flagan, Richard C, Kulmala, Markku, Smith, James N, Worsnop, Douglas R, Hansel, Armin, Donahue, Neil M, Winkler, Paul M
Lenguaje:eng
Publicado: 2018
Materias:
Particle Physics - Experiment
Acceso en línea:https://dx.doi.org/10.1073/pnas.1807604115
http://cds.cern.ch/record/2687313
_version_ 1780963613691871232
author Stolzenburg, Dominik
Fischer, Lukas
Vogel, Alexander L
Heinritzi, Martin
Schervish, Meredith
Simon, Mario
Wagner, Andrea C
Dada, Lubna
Ahonen, Lauri R
Amorim, Antonio
Baccarini, Andrea
Bauer, Paulus S
Baumgartner, Bernhard
Bergen, Anton
Bianchi, Federico
Breitenlechner, Martin
Brilke, Sophia
Mazon, Stephany Buenrostro
Chen, Dexian
Dias, António
Draper, Danielle C
Duplissy, Jonathan
Haddad, Imad El
Finkenzeller, Henning
Frege, Carla
Fuchs, Claudia
Garmash, Olga
Gordon, Hamish
He, Xucheng
Helm, Johanna
Hofbauer, Victoria
Hoyle, Christopher R
Kim, Changhyuk
Kirkby, Jasper
Kontkanen, Jenni
Kürten, Andreas
Lampilahti, Janne
Lawler, Michael
Lehtipalo, Katrianne
Leiminger, Markus
Mai, Huajun
Mathot, Serge
Mentler, Bernhard
Molteni, Ugo
Nie, Wei
Nieminen, Tuomo
Nowak, John B
Ojdanic, Andrea
Onnela, Antti
Passananti, Monica
Petäjä, Tuukka
Quéléver, Lauriane L J
Rissanen, Matti P
Sarnela, Nina
Schallhart, Simon
Tauber, Christian
Tomé, António
Wagner, Robert
Wang, Mingyi
Weitz, Lena
Wimmer, Daniela
Xiao, Mao
Yan, Chao
Ye, Penglin
Zha, Qiaozhi
Baltensperger, Urs
Curtius, Joachim
Dommen, Josef
Flagan, Richard C
Kulmala, Markku
Smith, James N
Worsnop, Douglas R
Hansel, Armin
Donahue, Neil M
Winkler, Paul M
author_facet Stolzenburg, Dominik
Fischer, Lukas
Vogel, Alexander L
Heinritzi, Martin
Schervish, Meredith
Simon, Mario
Wagner, Andrea C
Dada, Lubna
Ahonen, Lauri R
Amorim, Antonio
Baccarini, Andrea
Bauer, Paulus S
Baumgartner, Bernhard
Bergen, Anton
Bianchi, Federico
Breitenlechner, Martin
Brilke, Sophia
Mazon, Stephany Buenrostro
Chen, Dexian
Dias, António
Draper, Danielle C
Duplissy, Jonathan
Haddad, Imad El
Finkenzeller, Henning
Frege, Carla
Fuchs, Claudia
Garmash, Olga
Gordon, Hamish
He, Xucheng
Helm, Johanna
Hofbauer, Victoria
Hoyle, Christopher R
Kim, Changhyuk
Kirkby, Jasper
Kontkanen, Jenni
Kürten, Andreas
Lampilahti, Janne
Lawler, Michael
Lehtipalo, Katrianne
Leiminger, Markus
Mai, Huajun
Mathot, Serge
Mentler, Bernhard
Molteni, Ugo
Nie, Wei
Nieminen, Tuomo
Nowak, John B
Ojdanic, Andrea
Onnela, Antti
Passananti, Monica
Petäjä, Tuukka
Quéléver, Lauriane L J
Rissanen, Matti P
Sarnela, Nina
Schallhart, Simon
Tauber, Christian
Tomé, António
Wagner, Robert
Wang, Mingyi
Weitz, Lena
Wimmer, Daniela
Xiao, Mao
Yan, Chao
Ye, Penglin
Zha, Qiaozhi
Baltensperger, Urs
Curtius, Joachim
Dommen, Josef
Flagan, Richard C
Kulmala, Markku
Smith, James N
Worsnop, Douglas R
Hansel, Armin
Donahue, Neil M
Winkler, Paul M
author_sort Stolzenburg, Dominik
collection CERN
description Nucleation and growth of aerosol particles from atmospheric vapors constitutes a major source of global cloud condensation nuclei (CCN). The fraction of newly formed particles that reaches CCN sizes is highly sensitive to particle growth rates, especially for particle sizes <10 nm, where coagulation losses to larger aerosol particles are greatest. Recent results show that some oxidation products from biogenic volatile organic compounds are major contributors to particle formation and initial growth. However, whether oxidized organics contribute to particle growth over the broad span of tropospheric temperatures remains an open question, and quantitative mass balance for organic growth has yet to be demonstrated at any temperature. Here, in experiments performed under atmospheric conditions in the Cosmics Leaving Outdoor Droplets (CLOUD) chamber at the European Organization for Nuclear Research (CERN), we show that rapid growth of organic particles occurs over the range from −25 °C to 25 °C. The lower extent of autoxidation at reduced temperatures is compensated by the decreased volatility of all oxidized molecules. This is confirmed by particle-phase composition measurements, showing enhanced uptake of relatively less oxygenated products at cold temperatures. We can reproduce the measured growth rates using an aerosol growth model based entirely on the experimentally measured gas-phase spectra of oxidized organic molecules obtained from two complementary mass spectrometers. We show that the growth rates are sensitive to particle curvature, explaining widespread atmospheric observations that particle growth rates increase in the single-digit-nanometer size range. Our results demonstrate that organic vapors can contribute to particle growth over a wide range of tropospheric temperatures from molecular cluster sizes onward.
id oai-inspirehep.net-1746431
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2018
record_format invenio
spelling oai-inspirehep.net-17464312022-08-10T12:29:36Zdoi:10.1073/pnas.1807604115http://cds.cern.ch/record/2687313engStolzenburg, DominikFischer, LukasVogel, Alexander LHeinritzi, MartinSchervish, MeredithSimon, MarioWagner, Andrea CDada, LubnaAhonen, Lauri RAmorim, AntonioBaccarini, AndreaBauer, Paulus SBaumgartner, BernhardBergen, AntonBianchi, FedericoBreitenlechner, MartinBrilke, SophiaMazon, Stephany BuenrostroChen, DexianDias, AntónioDraper, Danielle CDuplissy, JonathanHaddad, Imad ElFinkenzeller, HenningFrege, CarlaFuchs, ClaudiaGarmash, OlgaGordon, HamishHe, XuchengHelm, JohannaHofbauer, VictoriaHoyle, Christopher RKim, ChanghyukKirkby, JasperKontkanen, JenniKürten, AndreasLampilahti, JanneLawler, MichaelLehtipalo, KatrianneLeiminger, MarkusMai, HuajunMathot, SergeMentler, BernhardMolteni, UgoNie, WeiNieminen, TuomoNowak, John BOjdanic, AndreaOnnela, AnttiPassananti, MonicaPetäjä, TuukkaQuéléver, Lauriane L JRissanen, Matti PSarnela, NinaSchallhart, SimonTauber, ChristianTomé, AntónioWagner, RobertWang, MingyiWeitz, LenaWimmer, DanielaXiao, MaoYan, ChaoYe, PenglinZha, QiaozhiBaltensperger, UrsCurtius, JoachimDommen, JosefFlagan, Richard CKulmala, MarkkuSmith, James NWorsnop, Douglas RHansel, ArminDonahue, Neil MWinkler, Paul MRapid growth of organic aerosol nanoparticles over a wide tropospheric temperature rangeParticle Physics - ExperimentNucleation and growth of aerosol particles from atmospheric vapors constitutes a major source of global cloud condensation nuclei (CCN). The fraction of newly formed particles that reaches CCN sizes is highly sensitive to particle growth rates, especially for particle sizes <10 nm, where coagulation losses to larger aerosol particles are greatest. Recent results show that some oxidation products from biogenic volatile organic compounds are major contributors to particle formation and initial growth. However, whether oxidized organics contribute to particle growth over the broad span of tropospheric temperatures remains an open question, and quantitative mass balance for organic growth has yet to be demonstrated at any temperature. Here, in experiments performed under atmospheric conditions in the Cosmics Leaving Outdoor Droplets (CLOUD) chamber at the European Organization for Nuclear Research (CERN), we show that rapid growth of organic particles occurs over the range from −25 °C to 25 °C. The lower extent of autoxidation at reduced temperatures is compensated by the decreased volatility of all oxidized molecules. This is confirmed by particle-phase composition measurements, showing enhanced uptake of relatively less oxygenated products at cold temperatures. We can reproduce the measured growth rates using an aerosol growth model based entirely on the experimentally measured gas-phase spectra of oxidized organic molecules obtained from two complementary mass spectrometers. We show that the growth rates are sensitive to particle curvature, explaining widespread atmospheric observations that particle growth rates increase in the single-digit-nanometer size range. Our results demonstrate that organic vapors can contribute to particle growth over a wide range of tropospheric temperatures from molecular cluster sizes onward.oai:inspirehep.net:17464312018
spellingShingle Particle Physics - Experiment
Stolzenburg, Dominik
Fischer, Lukas
Vogel, Alexander L
Heinritzi, Martin
Schervish, Meredith
Simon, Mario
Wagner, Andrea C
Dada, Lubna
Ahonen, Lauri R
Amorim, Antonio
Baccarini, Andrea
Bauer, Paulus S
Baumgartner, Bernhard
Bergen, Anton
Bianchi, Federico
Breitenlechner, Martin
Brilke, Sophia
Mazon, Stephany Buenrostro
Chen, Dexian
Dias, António
Draper, Danielle C
Duplissy, Jonathan
Haddad, Imad El
Finkenzeller, Henning
Frege, Carla
Fuchs, Claudia
Garmash, Olga
Gordon, Hamish
He, Xucheng
Helm, Johanna
Hofbauer, Victoria
Hoyle, Christopher R
Kim, Changhyuk
Kirkby, Jasper
Kontkanen, Jenni
Kürten, Andreas
Lampilahti, Janne
Lawler, Michael
Lehtipalo, Katrianne
Leiminger, Markus
Mai, Huajun
Mathot, Serge
Mentler, Bernhard
Molteni, Ugo
Nie, Wei
Nieminen, Tuomo
Nowak, John B
Ojdanic, Andrea
Onnela, Antti
Passananti, Monica
Petäjä, Tuukka
Quéléver, Lauriane L J
Rissanen, Matti P
Sarnela, Nina
Schallhart, Simon
Tauber, Christian
Tomé, António
Wagner, Robert
Wang, Mingyi
Weitz, Lena
Wimmer, Daniela
Xiao, Mao
Yan, Chao
Ye, Penglin
Zha, Qiaozhi
Baltensperger, Urs
Curtius, Joachim
Dommen, Josef
Flagan, Richard C
Kulmala, Markku
Smith, James N
Worsnop, Douglas R
Hansel, Armin
Donahue, Neil M
Winkler, Paul M
Rapid growth of organic aerosol nanoparticles over a wide tropospheric temperature range
title Rapid growth of organic aerosol nanoparticles over a wide tropospheric temperature range
title_full Rapid growth of organic aerosol nanoparticles over a wide tropospheric temperature range
title_fullStr Rapid growth of organic aerosol nanoparticles over a wide tropospheric temperature range
title_full_unstemmed Rapid growth of organic aerosol nanoparticles over a wide tropospheric temperature range
title_short Rapid growth of organic aerosol nanoparticles over a wide tropospheric temperature range
title_sort rapid growth of organic aerosol nanoparticles over a wide tropospheric temperature range
topic Particle Physics - Experiment
url https://dx.doi.org/10.1073/pnas.1807604115
http://cds.cern.ch/record/2687313
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