Richard C. Flagan, Ph.D.

Chemical Engineering California Institute of Technology, Pasadena, CA 
Control of air pollutants, combustion, aerosol processes
"Richard Flagan"
Mean distance: 11.66
Cross-listing: Meteorology Tree


Sign in to add mentor
John P. Appleton grad student 1973 MIT
 (The formation of nitric oxide from organic nitrogen contained in fossil fuels)


Sign in to add trainee
Jean M. Andino grad student Caltech (E-Tree)
Roya Bahreini grad student Caltech
Renato P. Camata grad student Caltech (Physics Tree)
Paul Drayton grad student Caltech (Meteorology Tree)
Hali Forstner grad student Caltech
Melissa Lunden grad student Caltech (Meteorology Tree)
Richard B. McClurg grad student Caltech (E-Tree)
Jay Odum grad student Caltech
Denis J. Phares grad student Caltech (E-Tree)
Tracey A. Rissman grad student Caltech
Steven Rogak grad student Caltech (Meteorology Tree)
Timothy M. VanReken grad student Caltech
Jian Wang grad student Caltech
Murray R. Gray grad student 1984 Caltech
Pratim Biswas grad student 1981-1985
Chak Keung Chan grad student 1992 Caltech
Patrick Chuang grad student 1999 Caltech (Meteorology Tree)
James Norman Smith grad student 2000 Caltech
Michele L. Ostraat grad student 2001 Caltech
Dean M. Holunga grad student 2006 Caltech
Adam P. Olsen grad student 2006 Caltech
Varuntida Varutbangkul grad student 2006 Caltech
Nga L. Ng grad student 2007 Caltech
Armin Sorooshian grad student 2008 Caltech
Shane M. Murphy grad student 2009 Caltech
Puneet S. Chhabra grad student 2011 Caltech
Scott P. Hersey grad student 2011 Caltech
Jason Gamba grad student 2012 Caltech
Andrew R. Metcalf grad student 2012 Caltech
Jill S. Craven grad student 2013 Caltech
Xerxes Lopez-Yglesias grad student 2013 Caltech
Andrea M. Armani post-doc 2006-2008 Caltech (E-Tree)
BETA: Related publications


You can help our author matching system! If you notice any publications incorrectly attributed to this author, please sign in and mark matches as correct or incorrect.

Lehtipalo K, Yan C, Dada L, et al. (2018) Multicomponent new particle formation from sulfuric acid, ammonia, and biogenic vapors. Science Advances. 4: eaau5363
Stolzenburg D, Fischer L, Vogel AL, et al. (2018) Rapid growth of organic aerosol nanoparticles over a wide tropospheric temperature range. Proceedings of the National Academy of Sciences of the United States of America
Sorooshian A, MacDonald AB, Dadashazar H, et al. (2018) A multi-year data set on aerosol-cloud-precipitation-meteorology interactions for marine stratocumulus clouds. Scientific Data. 5: 180026
Wang L, Li P, Yu S, et al. (2018) Predicted impact of thermal power generation emission control measures in the Beijing-Tianjin-Hebei region on air pollution over Beijing, China. Scientific Reports. 8: 934
Gordon H, Sengupta K, Rap A, et al. (2016) Reduced anthropogenic aerosol radiative forcing caused by biogenic new particle formation. Proceedings of the National Academy of Sciences of the United States of America. 113: 12053-12058
Dunne EM, Gordon H, Kürten A, et al. (2016) Global atmospheric particle formation from CERN CLOUD measurements. Science (New York, N.Y.)
Thomas DA, Coggon MM, Lignell H, et al. (2016) Real-Time Studies of Iron Oxalate-Mediated Oxidation of Glycolaldehyde as a Model for Photochemical Aging of Aqueous Tropospheric Aerosols. Environmental Science & Technology
Tröstl J, Chuang WK, Gordon H, et al. (2016) The role of low-volatility organic compounds in initial particle growth in the atmosphere. Nature. 533: 527-31
Kirkby J, Duplissy J, Sengupta K, et al. (2016) Ion-induced nucleation of pure biogenic particles. Nature. 533: 521-6
Lehtipalo K, Rondo L, Kontkanen J, et al. (2016) The effect of acid-base clustering and ions on the growth of atmospheric nano-particles. Nature Communications. 7: 11594
See more...