Kangwei Li scite author profile

Kangwei Li

3Publications

62Citation Statements Received

197Citation Statements Given

How they've been cited

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171

182

Affiliations

Institute of Researches on Catalysis and Environment in Lyon, Claude Bernard University Lyon 1, Zhejiang University

Publications

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Spontaneous dark formation of OH radicals at the interface of aqueous atmospheric droplets

Guo

Nizkorodov

et al. 2023

Proc. Natl. Acad. Sci. U.S.A.

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Hydroxyl radical (OH) is a key oxidant that triggers atmospheric oxidation chemistry in both gas and aqueous phases. The current understanding of its aqueous sources is mainly based on known bulk (photo)chemical processes, uptake from gaseous OH, or related to interfacial O 3 and NO 3 radical-driven chemistry. Here, we present experimental evidence that OH radicals are spontaneously produced at the air–water interface of aqueous droplets in the dark and the absence of known precursors, possibly due to the strong electric field that forms at such interfaces. The measured OH production rates in atmospherically relevant droplets are comparable to or significantly higher than those from known aqueous bulk sources, especially in the dark. As aqueous droplets are ubiquitous in the troposphere, this interfacial source of OH radicals should significantly impact atmospheric multiphase oxidation chemistry, with substantial implications on air quality, climate, and health.

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Naphthalene‐Derived Secondary Organic Aerosols Interfacial Photosensitizing Properties

Wang

Gemayel

Baboomian

et al. 2021

Geophysical Research Letters

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We investigated the photosensitizing properties of secondary organic aerosol (SOA) formed during the hydroxyl radical (OH) initiated oxidation of naphthalene. This SOA was injected into an aerosol flow tube and exposed to UV radiation and gaseous volatile organic compounds or sulfur dioxide (SO2). The aerosol particles were observed to grow in size by photosensitized uptake of d‐limonene and β‐pinene. In the presence of SO2, a photosensitized production (0.2–0.3 µg m−3 h−1) of sulfate was observed at all relative humidity (RH) levels. Some sulfate also formed on particles in the dark, probably due to the presence of organic peroxides. The dark and photochemical pathways exhibited different trends with RH, unraveling different contributions from bulk and surface chemistry. As naphthalene and other polycyclic aromatics are important SOA precursors in the urban and suburban areas, these dark and photosensitized reactions are likely to play an important role in sulfate and SOA formation.

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Evaluating the real changes of air quality due to clean air actions using a machine learning technique: Results from 12 Chinese mega-cities during 2013–2020

Guo

Zhao

et al. 2022

Chemosphere

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Kangwei Li

Spontaneous dark formation of OH radicals at the interface of aqueous atmospheric droplets

Naphthalene‐Derived Secondary Organic Aerosols Interfacial Photosensitizing Properties

Evaluating the real changes of air quality due to clean air actions using a machine learning technique: Results from 12 Chinese mega-cities during 2013–2020

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