Unprecedented Ambient Sulfur Trioxide (SO(3)) Detection: Possible Formation Mechanism and Atmospheric Implications

[Image: see text] Sulfur trioxide (SO(3)) is a crucial compound for atmospheric sulfuric acid (H(2)SO(4)) formation, acid rain formation, and other atmospheric physicochemical processes. During the daytime, SO(3) is mainly produced from the photo-oxidation of SO(2) by OH radicals. However, the sourc...

Descripción completa

Detalles Bibliográficos
Autores principales: Yao, Lei, Fan, Xiaolong, Yan, Chao, Kurtén, Theo, Daellenbach, Kaspar R., Li, Chang, Wang, Yonghong, Guo, Yishuo, Dada, Lubna, Rissanen, Matti P., Cai, Jing, Tham, Yee Jun, Zha, Qiaozhi, Zhang, Shaojun, Du, Wei, Yu, Miao, Zheng, Feixue, Zhou, Ying, Kontkanen, Jenni, Chan, Tommy, Shen, Jiali, Kujansuu, Joni T., Kangasluoma, Juha, Jiang, Jingkun, Wang, Lin, Worsnop, Douglas R., Petäjä, Tuukka, Kerminen, Veli-Matti, Liu, Yongchun, Chu, Biwu, He, Hong, Kulmala, Markku, Bianchi, Federico
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Chemical Society 2020
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7659313/
https://www.ncbi.nlm.nih.gov/pubmed/33195731
http://dx.doi.org/10.1021/acs.estlett.0c00615
_version_ 1783608811086413824
author Yao, Lei
Fan, Xiaolong
Yan, Chao
Kurtén, Theo
Daellenbach, Kaspar R.
Li, Chang
Wang, Yonghong
Guo, Yishuo
Dada, Lubna
Rissanen, Matti P.
Cai, Jing
Tham, Yee Jun
Zha, Qiaozhi
Zhang, Shaojun
Du, Wei
Yu, Miao
Zheng, Feixue
Zhou, Ying
Kontkanen, Jenni
Chan, Tommy
Shen, Jiali
Kujansuu, Joni T.
Kangasluoma, Juha
Jiang, Jingkun
Wang, Lin
Worsnop, Douglas R.
Petäjä, Tuukka
Kerminen, Veli-Matti
Liu, Yongchun
Chu, Biwu
He, Hong
Kulmala, Markku
Bianchi, Federico
author_facet Yao, Lei
Fan, Xiaolong
Yan, Chao
Kurtén, Theo
Daellenbach, Kaspar R.
Li, Chang
Wang, Yonghong
Guo, Yishuo
Dada, Lubna
Rissanen, Matti P.
Cai, Jing
Tham, Yee Jun
Zha, Qiaozhi
Zhang, Shaojun
Du, Wei
Yu, Miao
Zheng, Feixue
Zhou, Ying
Kontkanen, Jenni
Chan, Tommy
Shen, Jiali
Kujansuu, Joni T.
Kangasluoma, Juha
Jiang, Jingkun
Wang, Lin
Worsnop, Douglas R.
Petäjä, Tuukka
Kerminen, Veli-Matti
Liu, Yongchun
Chu, Biwu
He, Hong
Kulmala, Markku
Bianchi, Federico
author_sort Yao, Lei
collection PubMed
description [Image: see text] Sulfur trioxide (SO(3)) is a crucial compound for atmospheric sulfuric acid (H(2)SO(4)) formation, acid rain formation, and other atmospheric physicochemical processes. During the daytime, SO(3) is mainly produced from the photo-oxidation of SO(2) by OH radicals. However, the sources of SO(3) during the early morning and night, when OH radicals are scarce, are not fully understood. We report results from two field measurements in urban Beijing during winter and summer 2019, using a nitrate-CI-APi-LTOF (chemical ionization-atmospheric pressure interface-long-time-of-flight) mass spectrometer to detect atmospheric SO(3) and H(2)SO(4). Our results show the level of SO(3) was higher during the winter than during the summer, with high SO(3) levels observed especially during the early morning (∼05:00 to ∼08:30) and night (∼18:00 to ∼05:00 the next day). On the basis of analysis of SO(2), NO(x), black carbon, traffic flow, and atmospheric ions, we suggest SO(3) could be formed from the catalytic oxidation of SO(2) on the surface of traffic-related black carbon. This previously unidentified SO(3) source results in significant H(2)SO(4) formation in the early morning and thus promotes sub-2.5 nm particle formation. These findings will help in understanding urban SO(3) and formulating policies to mitigate secondary particle formation in Chinese megacities.
format Online
Article
Text
id pubmed-7659313
institution National Center for Biotechnology Information
language English
publishDate 2020
publisher American Chemical Society
record_format MEDLINE/PubMed
spelling pubmed-76593132020-11-13 Unprecedented Ambient Sulfur Trioxide (SO(3)) Detection: Possible Formation Mechanism and Atmospheric Implications Yao, Lei Fan, Xiaolong Yan, Chao Kurtén, Theo Daellenbach, Kaspar R. Li, Chang Wang, Yonghong Guo, Yishuo Dada, Lubna Rissanen, Matti P. Cai, Jing Tham, Yee Jun Zha, Qiaozhi Zhang, Shaojun Du, Wei Yu, Miao Zheng, Feixue Zhou, Ying Kontkanen, Jenni Chan, Tommy Shen, Jiali Kujansuu, Joni T. Kangasluoma, Juha Jiang, Jingkun Wang, Lin Worsnop, Douglas R. Petäjä, Tuukka Kerminen, Veli-Matti Liu, Yongchun Chu, Biwu He, Hong Kulmala, Markku Bianchi, Federico Environ Sci Technol Lett [Image: see text] Sulfur trioxide (SO(3)) is a crucial compound for atmospheric sulfuric acid (H(2)SO(4)) formation, acid rain formation, and other atmospheric physicochemical processes. During the daytime, SO(3) is mainly produced from the photo-oxidation of SO(2) by OH radicals. However, the sources of SO(3) during the early morning and night, when OH radicals are scarce, are not fully understood. We report results from two field measurements in urban Beijing during winter and summer 2019, using a nitrate-CI-APi-LTOF (chemical ionization-atmospheric pressure interface-long-time-of-flight) mass spectrometer to detect atmospheric SO(3) and H(2)SO(4). Our results show the level of SO(3) was higher during the winter than during the summer, with high SO(3) levels observed especially during the early morning (∼05:00 to ∼08:30) and night (∼18:00 to ∼05:00 the next day). On the basis of analysis of SO(2), NO(x), black carbon, traffic flow, and atmospheric ions, we suggest SO(3) could be formed from the catalytic oxidation of SO(2) on the surface of traffic-related black carbon. This previously unidentified SO(3) source results in significant H(2)SO(4) formation in the early morning and thus promotes sub-2.5 nm particle formation. These findings will help in understanding urban SO(3) and formulating policies to mitigate secondary particle formation in Chinese megacities. American Chemical Society 2020-09-25 2020-11-10 /pmc/articles/PMC7659313/ /pubmed/33195731 http://dx.doi.org/10.1021/acs.estlett.0c00615 Text en This is an open access article published under a Creative Commons Attribution (CC-BY) License (http://pubs.acs.org/page/policy/authorchoice_ccby_termsofuse.html) , which permits unrestricted use, distribution and reproduction in any medium, provided the author and source are cited.
spellingShingle Yao, Lei
Fan, Xiaolong
Yan, Chao
Kurtén, Theo
Daellenbach, Kaspar R.
Li, Chang
Wang, Yonghong
Guo, Yishuo
Dada, Lubna
Rissanen, Matti P.
Cai, Jing
Tham, Yee Jun
Zha, Qiaozhi
Zhang, Shaojun
Du, Wei
Yu, Miao
Zheng, Feixue
Zhou, Ying
Kontkanen, Jenni
Chan, Tommy
Shen, Jiali
Kujansuu, Joni T.
Kangasluoma, Juha
Jiang, Jingkun
Wang, Lin
Worsnop, Douglas R.
Petäjä, Tuukka
Kerminen, Veli-Matti
Liu, Yongchun
Chu, Biwu
He, Hong
Kulmala, Markku
Bianchi, Federico
Unprecedented Ambient Sulfur Trioxide (SO(3)) Detection: Possible Formation Mechanism and Atmospheric Implications
title Unprecedented Ambient Sulfur Trioxide (SO(3)) Detection: Possible Formation Mechanism and Atmospheric Implications
title_full Unprecedented Ambient Sulfur Trioxide (SO(3)) Detection: Possible Formation Mechanism and Atmospheric Implications
title_fullStr Unprecedented Ambient Sulfur Trioxide (SO(3)) Detection: Possible Formation Mechanism and Atmospheric Implications
title_full_unstemmed Unprecedented Ambient Sulfur Trioxide (SO(3)) Detection: Possible Formation Mechanism and Atmospheric Implications
title_short Unprecedented Ambient Sulfur Trioxide (SO(3)) Detection: Possible Formation Mechanism and Atmospheric Implications
title_sort unprecedented ambient sulfur trioxide (so(3)) detection: possible formation mechanism and atmospheric implications
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7659313/
https://www.ncbi.nlm.nih.gov/pubmed/33195731
http://dx.doi.org/10.1021/acs.estlett.0c00615
work_keys_str_mv AT yaolei unprecedentedambientsulfurtrioxideso3detectionpossibleformationmechanismandatmosphericimplications
AT fanxiaolong unprecedentedambientsulfurtrioxideso3detectionpossibleformationmechanismandatmosphericimplications
AT yanchao unprecedentedambientsulfurtrioxideso3detectionpossibleformationmechanismandatmosphericimplications
AT kurtentheo unprecedentedambientsulfurtrioxideso3detectionpossibleformationmechanismandatmosphericimplications
AT daellenbachkasparr unprecedentedambientsulfurtrioxideso3detectionpossibleformationmechanismandatmosphericimplications
AT lichang unprecedentedambientsulfurtrioxideso3detectionpossibleformationmechanismandatmosphericimplications
AT wangyonghong unprecedentedambientsulfurtrioxideso3detectionpossibleformationmechanismandatmosphericimplications
AT guoyishuo unprecedentedambientsulfurtrioxideso3detectionpossibleformationmechanismandatmosphericimplications
AT dadalubna unprecedentedambientsulfurtrioxideso3detectionpossibleformationmechanismandatmosphericimplications
AT rissanenmattip unprecedentedambientsulfurtrioxideso3detectionpossibleformationmechanismandatmosphericimplications
AT caijing unprecedentedambientsulfurtrioxideso3detectionpossibleformationmechanismandatmosphericimplications
AT thamyeejun unprecedentedambientsulfurtrioxideso3detectionpossibleformationmechanismandatmosphericimplications
AT zhaqiaozhi unprecedentedambientsulfurtrioxideso3detectionpossibleformationmechanismandatmosphericimplications
AT zhangshaojun unprecedentedambientsulfurtrioxideso3detectionpossibleformationmechanismandatmosphericimplications
AT duwei unprecedentedambientsulfurtrioxideso3detectionpossibleformationmechanismandatmosphericimplications
AT yumiao unprecedentedambientsulfurtrioxideso3detectionpossibleformationmechanismandatmosphericimplications
AT zhengfeixue unprecedentedambientsulfurtrioxideso3detectionpossibleformationmechanismandatmosphericimplications
AT zhouying unprecedentedambientsulfurtrioxideso3detectionpossibleformationmechanismandatmosphericimplications
AT kontkanenjenni unprecedentedambientsulfurtrioxideso3detectionpossibleformationmechanismandatmosphericimplications
AT chantommy unprecedentedambientsulfurtrioxideso3detectionpossibleformationmechanismandatmosphericimplications
AT shenjiali unprecedentedambientsulfurtrioxideso3detectionpossibleformationmechanismandatmosphericimplications
AT kujansuujonit unprecedentedambientsulfurtrioxideso3detectionpossibleformationmechanismandatmosphericimplications
AT kangasluomajuha unprecedentedambientsulfurtrioxideso3detectionpossibleformationmechanismandatmosphericimplications
AT jiangjingkun unprecedentedambientsulfurtrioxideso3detectionpossibleformationmechanismandatmosphericimplications
AT wanglin unprecedentedambientsulfurtrioxideso3detectionpossibleformationmechanismandatmosphericimplications
AT worsnopdouglasr unprecedentedambientsulfurtrioxideso3detectionpossibleformationmechanismandatmosphericimplications
AT petajatuukka unprecedentedambientsulfurtrioxideso3detectionpossibleformationmechanismandatmosphericimplications
AT kerminenvelimatti unprecedentedambientsulfurtrioxideso3detectionpossibleformationmechanismandatmosphericimplications
AT liuyongchun unprecedentedambientsulfurtrioxideso3detectionpossibleformationmechanismandatmosphericimplications
AT chubiwu unprecedentedambientsulfurtrioxideso3detectionpossibleformationmechanismandatmosphericimplications
AT hehong unprecedentedambientsulfurtrioxideso3detectionpossibleformationmechanismandatmosphericimplications
AT kulmalamarkku unprecedentedambientsulfurtrioxideso3detectionpossibleformationmechanismandatmosphericimplications
AT bianchifederico unprecedentedambientsulfurtrioxideso3detectionpossibleformationmechanismandatmosphericimplications

Ejemplares similares