Bin Xiang
Harvard University
22 Papers
50 Citations
Bin Xiang is an academic researcher from Harvard University. The author has contributed to research in topics: Greenhouse gas & Chemistry. The author has an hindex of 12, co-authored 21 publications. Previous affiliations of Bin Xiang include New York State Department of Health.
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Papers
Observational evidence for interhemispheric hydroxyl-radical parity
Prabir K. Patra,Prabir K. Patra,Maarten Krol,Stephen A. Montzka,Tim Arnold,Elliot Atlas,Benjamin R. Lintner,Britton B. Stephens,Bin Xiang,James W. Elkins,Paul J. Fraser,A. Ghosh,A. Ghosh,Eric J. Hintsa,Eric J. Hintsa,Dale F. Hurst,Dale F. Hurst,Kentaro Ishijima,Paul B. Krummel,Benjamin R. Miller,Benjamin R. Miller,Kazuyuki Miyazaki,Fred L. Moore,Fred L. Moore,Jens Mühle,Simon O'Doherty,Ronald G. Prinn,L. P. Steele,Masayuki Takigawa,H. J. Wang,Ray F. Weiss,S. C. Wofsy,Dickon Young +32 more
TL;DR: The findings suggest that top-down emission estimates of reactive species such as nitrogen oxides in key emitting countries in the NH that are based on a NH/SH OH ratio larger than 1 may be overestimated.
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Impact of fuel quality regulation and speed reductions on shipping emissions: implications for climate and air quality.
Daniel A. Lack,Daniel A. Lack,Christopher D. Cappa,Justin M. Langridge,Justin M. Langridge,Roya Bahreini,Roya Bahreini,Gina Buffaloe,Charles A. Brock,K. M. Cerully,Derek J. Coffman,Katherine Hayden,J. S. Holloway,Brian M. Lerner,Brian M. Lerner,Paola Massoli,Shao-Meng Li,Robert McLaren,Ann M. Middlebrook,Richard H. Moore,Athanasios Nenes,I. Nuaaman,I. Nuaaman,Timothy B. Onasch,Jeff Peischl,Jeff Peischl,Anne E. Perring,Anne E. Perring,Patricia K. Quinn,T. B. Ryerson,Joshua P. Schwartz,Joshua P. Schwartz,Ryan Spackman,Ryan Spackman,Steven C. Wofsy,Doug Worsnop,Bin Xiang,Eric J. Williams,Eric J. Williams +38 more
TL;DR: The analysis presented provides direct estimations of the emissions reductions that can be realized by California fuel quality regulation and VSR program, in addition to providing new information relevant to potential health and climate impact of reduced fuel sulfur content, fuel quality and vessel speed reductions.
Airborne and ground-based observations of a weekend effect in ozone, precursors, and oxidation products in the California South Coast Air Basin
Ilana B. Pollack,Ilana B. Pollack,T. B. Ryerson,Michael Trainer,David D. Parrish,Arlyn E. Andrews,Elliot Atlas,Donald R. Blake,Steven S. Brown,Roisin Commane,Bruce C. Daube,J. A. de Gouw,J. A. de Gouw,William P. Dubé,William P. Dubé,James Flynn,Gregory J. Frost,Gregory J. Frost,Jessica B. Gilman,Jessica B. Gilman,N. Grossberg,John S. Holloway,John S. Holloway,J. Kofler,J. Kofler,Eric A. Kort,William C. Kuster,P. M. Lang,Barry Lefer,R. Lueb,J. A. Neuman,J. A. Neuman,John B. Nowak,John B. Nowak,Paul C. Novelli,Jeff Peischl,Jeff Peischl,Anne E. Perring,Anne E. Perring,J. M. Roberts,G. W. Santoni,Joshua P. Schwarz,Joshua P. Schwarz,J. R. Spackman,J. R. Spackman,Nicholas L. Wagner,Nicholas L. Wagner,Carsten Warneke,Carsten Warneke,Rebecca A. Washenfelder,Rebecca A. Washenfelder,S. C. Wofsy,Bin Xiang +52 more
TL;DR: In this article, the authors extend current understanding of the weekend ozone effect in the SoCAB by identifying its major causes and quantifying their relative importance from the available CalNex data.
308 nm photolysis of nitric acid in the gas phase, on aluminum surfaces, and on ice films.
TL;DR: Study of the photolysis of nitric acid in the gas phase at 253 and 295 K, on aluminum surfaces and on ice films, by using 308 nm excimer laserphotolysis combined with cavity ring-down spectroscopy and monitored both the ground-stateNO(2) and the electronically excited NO(2), NO( 2)*, produced from the HNO(3) photolytic pathway.
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Nitrous oxide (N2O) emissions from California based on 2010 CalNex airborne measurements
Bin Xiang,Scot M. Miller,Eric A. Kort,G. W. Santoni,Bruce C. Daube,Roisin Commane,Wayne M. Angevine,T. B. Ryerson,Michael Trainer,Arlyn E. Andrews,Thomas Nehrkorn,Hanqin Tian,Steven C. Wofsy +12 more
TL;DR: In this article, the authors derived regional emission rates for N2O in the agricultural heartland of California based on analysis of in-situ airborne atmospheric observations collected using a new quantum cascade laser spectrometer.
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