Molecular Imaging Reveals Two Distinct Mixing States of PM2.5 Particles Sampled in a Typical Beijing Winter Pollution Case

Ye Li; Yadong Zhou; Wenxiao Guo; Xin Zhang; Ye Huang; Erkai He; Runkui Li; Beizhan Yan; Hailong Wang; Fan Mei; Min Liu; Zihua Zhu

doi:10.1021/acs.est.2c08694

Molecular Imaging Reveals Two Distinct Mixing States of PM_2.5 Particles Sampled in a Typical Beijing Winter Pollution Case

Ye Li
, Yadong Zhou
, Wenxiao Guo
, Xin Zhang
, Ye Huang
, Erkai He
, Runkui Li
, Beizhan Yan
, Hailong Wang
, Fan Mei^*
, Min Liu^*
, Zihua Zhu^*

^*此作品的通讯作者

地理科学学院

Columbia University
East China Normal University
Pacific Northwest National Laboratory
CAS - Institute of Geographical Sciences and Natural Resources Research

科研成果: 期刊稿件 › 文章 › 同行评审

7 引用（Scopus）

摘要

Mixing states of aerosol particles are crucial for understanding the role of aerosols in influencing air quality and climate. However, a fundamental understanding of the complex mixing states is still lacking because most traditional analysis techniques only reveal bulk chemical and physical properties with limited surface and 3-D information. In this research, 3-D molecular imaging enabled by ToF-SIMS was used to elucidate the mixing states of PM_2.5 samples obtained from a typical Beijing winter haze event. In light pollution cases, a thin organic layer covers separated inorganic particles; while in serious pollution cases, ion exchange and an organic-inorganic mixing surface on large-area particles were observed. The new results provide key 3-D molecular information of mixing states, which is highly potential for reducing uncertainty and bias in representing aerosol-cloud interactions in current Earth System Models and improving the understanding of aerosols on air quality and human health.

源语言	英语
页（从-至）	6273-6283
页数	11
期刊	Environmental Science and Technology
卷	57
期	15
DOI	https://doi.org/10.1021/acs.est.2c08694
出版状态	已出版 - 18 4月 2023

联合国可持续发展目标

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可持续发展目标 3 良好健康与福祉

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10.1021/acs.est.2c08694

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引用此

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title = "Molecular Imaging Reveals Two Distinct Mixing States of PM2.5 Particles Sampled in a Typical Beijing Winter Pollution Case",

abstract = "Mixing states of aerosol particles are crucial for understanding the role of aerosols in influencing air quality and climate. However, a fundamental understanding of the complex mixing states is still lacking because most traditional analysis techniques only reveal bulk chemical and physical properties with limited surface and 3-D information. In this research, 3-D molecular imaging enabled by ToF-SIMS was used to elucidate the mixing states of PM2.5 samples obtained from a typical Beijing winter haze event. In light pollution cases, a thin organic layer covers separated inorganic particles; while in serious pollution cases, ion exchange and an organic-inorganic mixing surface on large-area particles were observed. The new results provide key 3-D molecular information of mixing states, which is highly potential for reducing uncertainty and bias in representing aerosol-cloud interactions in current Earth System Models and improving the understanding of aerosols on air quality and human health.",

keywords = "3-D molecular imaging, PM, core-shell structure, mixing state, surface chemistry",

author = "Ye Li and Yadong Zhou and Wenxiao Guo and Xin Zhang and Ye Huang and Erkai He and Runkui Li and Beizhan Yan and Hailong Wang and Fan Mei and Min Liu and Zihua Zhu",

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year = "2023",

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day = "18",

doi = "10.1021/acs.est.2c08694",

language = "英语",

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TY - JOUR

T1 - Molecular Imaging Reveals Two Distinct Mixing States of PM2.5 Particles Sampled in a Typical Beijing Winter Pollution Case

AU - Li, Ye

AU - Zhou, Yadong

AU - Guo, Wenxiao

AU - Zhang, Xin

AU - Huang, Ye

AU - He, Erkai

AU - Li, Runkui

AU - Yan, Beizhan

AU - Wang, Hailong

AU - Mei, Fan

AU - Liu, Min

AU - Zhu, Zihua

PY - 2023/4/18

Y1 - 2023/4/18

N2 - Mixing states of aerosol particles are crucial for understanding the role of aerosols in influencing air quality and climate. However, a fundamental understanding of the complex mixing states is still lacking because most traditional analysis techniques only reveal bulk chemical and physical properties with limited surface and 3-D information. In this research, 3-D molecular imaging enabled by ToF-SIMS was used to elucidate the mixing states of PM2.5 samples obtained from a typical Beijing winter haze event. In light pollution cases, a thin organic layer covers separated inorganic particles; while in serious pollution cases, ion exchange and an organic-inorganic mixing surface on large-area particles were observed. The new results provide key 3-D molecular information of mixing states, which is highly potential for reducing uncertainty and bias in representing aerosol-cloud interactions in current Earth System Models and improving the understanding of aerosols on air quality and human health.

AB - Mixing states of aerosol particles are crucial for understanding the role of aerosols in influencing air quality and climate. However, a fundamental understanding of the complex mixing states is still lacking because most traditional analysis techniques only reveal bulk chemical and physical properties with limited surface and 3-D information. In this research, 3-D molecular imaging enabled by ToF-SIMS was used to elucidate the mixing states of PM2.5 samples obtained from a typical Beijing winter haze event. In light pollution cases, a thin organic layer covers separated inorganic particles; while in serious pollution cases, ion exchange and an organic-inorganic mixing surface on large-area particles were observed. The new results provide key 3-D molecular information of mixing states, which is highly potential for reducing uncertainty and bias in representing aerosol-cloud interactions in current Earth System Models and improving the understanding of aerosols on air quality and human health.

KW - 3-D molecular imaging

KW - PM

KW - core-shell structure

KW - mixing state

KW - surface chemistry

UR - https://www.scopus.com/pages/publications/85152128500

U2 - 10.1021/acs.est.2c08694

DO - 10.1021/acs.est.2c08694

M3 - 文章

C2 - 37022139

AN - SCOPUS:85152128500

SN - 0013-936X

VL - 57

SP - 6273

EP - 6283

JO - Environmental Science and Technology

JF - Environmental Science and Technology

IS - 15

ER -

Molecular Imaging Reveals Two Distinct Mixing States of PM2.5 Particles Sampled in a Typical Beijing Winter Pollution Case

摘要

联合国可持续发展目标

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Molecular Imaging Reveals Two Distinct Mixing States of PM_2.5 Particles Sampled in a Typical Beijing Winter Pollution Case