Chemical evolution of atmospheric organic carbon over multiple generations of oxidation

Chemical evolution of atmospheric organic carbon over multiple generations of oxidation

The evolution of atmospheric organic carbon as it undergoes oxidation has a controlling influence on concentrations of key atmospheric species, including particulate matter, ozone and oxidants. However, full characterization of organic carbon over hours to days of atmospheric processing has been sty...

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Bibliographic Details
Main Authors: Massoli, Paola (Author), Nowak, John B. (Author), Canagaratna, Manjula R. (Author), Misztal, Pawel K. (Author), Arata, Caleb (Author), Roscioli, Joseph R. (Author), Herndon, Scott T. (Author), Onasch, Timothy B. (Author), Lambe, Andrew T. (Author), Jayne, John T. (Author), Su, Luping (Author), Knopf, Daniel A. (Author), Goldstein, Allen H. (Author), Worsnop, Douglas R. (Author), Isaacman, Gabriel (Contributor), Sellon, Rachel E. (Contributor), Lim, Christopher Yung-Ta (Contributor), Franklin, Jonathan Pfeil (Contributor), Moss, Joshua Alexandre (Contributor), Hunter, James Freeman (Contributor), Kroll, Jesse (Contributor)
Other Authors: Massachusetts Institute of Technology. Department of Civil and Environmental Engineering (Contributor), Kroll, Jesse H (Contributor)
Format: Article
Language:English
Published: Nature Publishing Group, 2018-12-07T19:28:50Z.
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