David R. Cocker, III
Affiliations: | Chemical and Environmental Engineering | University of California, Riverside, Riverside, CA, United States | |
| 2001 | California Institute of Technology, Pasadena, CA |
Area:
Atmospheric Sciences, Atmospheric Chemistry, Analytical ChemistryWebsite:
https://profiles.ucr.edu/app/home/profile/davidcoGoogle:
"David R. Cocker, III"Bio:
Cocker, David Rea (2001) Chamber investigations of secondary organic aerosol formation. Dissertation (Ph.D.), California Institute of Technology. doi:10.7907/22w2-vk68.
Mean distance: 10.7
Parents
Sign in to add mentor| Richard C. Flagan | grad student | 2001 | Caltech | |
| (second advisor) | ||||
| John H. Seinfeld | grad student | 2001 | Caltech | |
| (Chamber investigations of secondary organic aerosol formation.) | ||||
Children
Sign in to add trainee| Aniket A. Sawant | grad student | 2006 | UC Riverside (E-Tree) |
| Abhilash Nigam | grad student | 2007 | UC Riverside (E-Tree) |
| Ajay K. Chaudhary | grad student | 2008 | UC Riverside (E-Tree) |
| Bethany A. Warren | grad student | 2008 | UC Riverside (E-Tree) |
| Harshit Agrawal | grad student | 2009 | UC Riverside (E-Tree) |
| Quentin G. Malloy | grad student | 2009 | UC Riverside (E-Tree) |
| Shunsuke Nakao | grad student | 2012 | UC Riverside (E-Tree) |
| Maryam Hajbabaei | grad student | 2013 | UC Riverside (E-Tree) |
| Xiaochen Tang | grad student | 2013 | UC Riverside (E-Tree) |
| Lijie Li | grad student | 2011-2016 | UC Riverside (E-Tree) |
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Publications
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| Lum M, Chen K, Ries B, et al. (2024) Chemical Fate of Particulate Sulfur from Nighttime Oxidation of Thiophene. Acs Es&T Air. 1: 1637-1649 |
| Sasidharan S, He Y, Akherati A, et al. (2023) Secondary Organic Aerosol Formation from Volatile Chemical Product Emissions: Model Parameters and Contributions to Anthropogenic Aerosol. Environmental Science & Technology |
| Nguyen TB, Bates KH, Buenconsejo RS, et al. (2023) Overview of ICARUS-A Curated, Open Access, Online Repository for Atmospheric Simulation Chamber Data. Acs Earth & Space Chemistry. 7: 1235-1246 |
| Ghadimi S, Zhu H, Durbin TD, et al. (2022) The impact of hydrogenated vegetable oil (HVO) on the formation of secondary organic aerosol (SOA) from in-use heavy-duty diesel vehicles. The Science of the Total Environment. 822: 153583 |
| Kuittinen N, McCaffery C, Peng W, et al. (2021) Effects of driving conditions on secondary aerosol formation from a GDI vehicle using an oxidation flow reactor. Environmental Pollution (Barking, Essex : 1987). 282: 117069 |
| Peng W, Yang J, Corbin J, et al. (2020) Comprehensive analysis of the air quality impacts of switching a marine vessel from diesel fuel to natural gas. Environmental Pollution (Barking, Essex : 1987). 266: 115404 |
| Roth P, Yang J, Stamatis C, et al. (2020) Evaluating the relationships between aromatic and ethanol levels in gasoline on secondary aerosol formation from a gasoline direct injection vehicle. The Science of the Total Environment. 737: 140333 |
| Weise DR, Jung H, Palarea-Albaladejo J, et al. (2020) Compositional data analysis of smoke emissions from debris piles with low-density polyethylene. Journal of the Air & Waste Management Association (1995) |
| Roth P, Yang J, Peng W, et al. (2020) Intermediate and high ethanol blends reduce secondary organic aerosol formation from gasoline direct injection vehicles Atmospheric Environment. 220: 117064 |
| Corbin JC, Peng W, Yang J, et al. (2020) Characterization of particulate matter emitted by a marine engine operated with liquefied natural gas and diesel fuels Atmospheric Environment. 220: 117030 |