S
Shao-Meng Li
Researcher at Peking University
Publications - 235
Citations - 13101
Shao-Meng Li is an academic researcher from Peking University. The author has contributed to research in topics: Aerosol & Oil sands. The author has an hindex of 60, co-authored 231 publications receiving 11502 citations. Previous affiliations of Shao-Meng Li include Environment Canada & National Center for Atmospheric Research.
Papers
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Journal ArticleDOI
Recommendations for reporting "black carbon" measurements
Andreas Petzold,John A. Ogren,Markus Fiebig,P. Laj,Shao-Meng Li,Urs Baltensperger,Thomas Holzer-Popp,Stefan Kinne,Gelsomina Pappalardo,Nobuo Sugimoto,Christoph Wehrli,Alfred Wiedensohler,Xiaoye Zhang +12 more
TL;DR: In this article, the authors present a recommended terminology to clarify the terms used for black carbon in atmospheric research, with the goal of establishing unambiguous links between terms, targeted material properties and associated measurement techniques.
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Radiative Absorption Enhancements Due to the Mixing State of Atmospheric Black Carbon
Christopher D. Cappa,Timothy B. Onasch,Paola Massoli,Douglas R. Worsnop,Timothy S. Bates,Eben S. Cross,Paul Davidovits,Jani Hakala,Katherine Hayden,B. Tom Jobson,Katheryn R. Kolesar,Daniel A. Lack,Daniel A. Lack,Brian M. Lerner,Brian M. Lerner,Shao-Meng Li,Daniel Mellon,I. Nuaaman,I. Nuaaman,Jason S. Olfert,Tuukka Petäjä,Patricia K. Quinn,Chen Song,R. Subramanian,Eric J. Williams,Rahul A. Zaveri +25 more
TL;DR: Direct measurements show that ambient atmospheric particulate black carbon absorbs less solar radiation than theory suggested, suggesting that many climate models may be overestimating the amount of warming caused by black carbon emissions.
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Characterization of urban and rural organic particulate in the Lower Fraser Valley using two Aerodyne Aerosol Mass Spectrometers
M. Rami Alfarra,Hugh Coe,James Allan,Keith Bower,Hacene Boudries,Manjula R. Canagaratna,Jose L. Jimenez,John T. Jayne,Arthur Garforth,Shao-Meng Li,Douglas R. Worsnop +10 more
TL;DR: In this paper, the variability of the organic particulate composition and size distribution as a function of location and photochemical activity with a particular emphasis on the urban and rural areas was studied.
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Reactive uptake of glyoxal by particulate matter
TL;DR: In this paper, the authors found that the heterogeneous loss of glyoxal in the atmosphere is at least as important as gas phase loss mechanisms, including photolysis and reaction with hydroxyl radicals.
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Heterogeneous Reactions of Glyoxal on Particulate Matter: Identification of Acetals and Sulfate Esters
TL;DR: First evidence of the formation of organic sulfates in particles is presented together with a proposed mechanism and molecular structure, suggesting that theformation of these products of glyoxal uptake can contribute significantly to secondary organic aerosol.