C. S. Kiang

Q: What Schools Are Affiliated With C. S. Kiang

C. S. Kiang is affiliated with the following schools: University of California, Berkeley, Princeton University, Stanford University, Georgia Tech, Peking University

C. S. Kiang's AcademicInfluence.com Rankings

C. S. Kiang

Mathematics

#8407

World Rank

#11431

Historical Rank

mathematics Degrees

C. S. Kiang

Communications

#8868

World Rank

#12049

Historical Rank

communications Degrees

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Mathematics
Communications

C. S. Kiang's Degrees

PhD Atmospheric Science Princeton University
Bachelors Physics Stanford University

Why Is C. S. Kiang Influential?

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According to Wikipedia, C.S. Kiang has served as Chairman of the Peking University Environment Fund and the Founding Dean of the College of Environmental Sciences at Peking University between 2002 and 2006. His vision is to set up the basic infrastructure for the development of leadership in sustainable development, exploring the world impact of what China can do for the world in the 21st century.

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C. S. Kiang's Published Works

Number of citations in a given year to any of this author's works

Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author

Published Works

The role of biogenic hydrocarbons in urban photochemical smog: Atlanta as a case study. (1988) (965)
Seasonal trends in PM2.5 source contributions in Beijing, China (2005) (542)
Case study of the effects of atmospheric aerosols and regional haze on agriculture: an opportunity to enhance crop yields in China through emission controls? (1999) (494)
A One-Dimensional Model Describing Aerosol Formation and Evolution in the Stratosphere: I. Physical Processes and Mathematical Analogs (1979) (290)
Aerosol radiative, physical, and chemical properties in Beijing during June 1999 (2001) (226)
Is ozone pollution affecting crop yields in China? (1999) (176)
An analysis of various nucleation mechanisms for sulfate particles in the stratosphere (1982) (155)
Source areas and chemical composition of fine particulate matter in the Pearl River Delta region of China (2006) (148)
Variability of the aerosol number size distribution in Beijing, China: New particle formation, dust storms, and high continental background (2004) (132)
Microphysical Processes Affecting Stratospheric Aerosol Particles (1977) (125)
A one-dimensional model describing aerosol formation and evolution in the stratosphere: II. Sensitivity studies and comparison with observations (1979) (124)
Global measurements of aerosols in remote continental and marine regions: Concentrations, size distributions, and optical properties (1980) (116)
The global scale dispersion of the eruption clouds from major volcanic eruptions (1976) (113)
Surface ozone: A likely threat to crops in Yangtze delta of China (2005) (94)
On the chemistry of stratospheric SO2 from volcanic eruptions (1984) (93)
Intercomparison of near real time monitors of PM2.5 nitrate and sulfate at the U.S. Environmental Protection Agency Atlanta Supersite (2003) (79)
Theoretical estimates of the relative importance of various urban sulfate aerosol production mechanisms (1980) (77)
The Nucleation of H2SO4-H2O Solution Aerosol Particles in the Stratosphere (1977) (66)
A model study of the formation of cloud condensation nuclei in remote marine areas (1992) (60)
Heteromolecular nucleation theory applied to gas-to-particle conversion (1973) (56)
Overview of the 1999 Atlanta Supersite Project (2003) (55)
The NASA-AMES Research Center Stratospheric Aerosol Model. 1. Physical Processes and Computational Analogs (1979) (55)
Chemical nucleation theory for various humidities and pollutants (1973) (50)
Local and regional anthropogenic influence on PM2.5 elements in Hong Kong (2007) (48)
A kinetic aerosol model for the formation and growth of secondary sulfuric acid particles (1978) (47)
A Reexamination of Homogeneous Nucleation Theory. (1971) (46)
Introduction to special section: Southern Oxidants Study Nashville/Middle Tennessee Ozone Study (1998) (40)
Heteromolecular condensation theory applied to particle growth (1973) (40)
Application of Fisher's droplet model for the liquid-gas transition nearTc (1970) (39)
Heat Pump Drying Systems (2006) (39)
Possible symmetrization of Fisher's droplet picture nearTc: A bubble-droplet formula (1971) (32)
Gas‐to‐particle conversion of tropospheric sulfur as estimated from observations in the western North Pacific during PEM‐West B (1997) (31)
Droplet Model and Nucleation of Supersaturated Vapors Near the Critical Point (1971) (26)
A mechanism for hydrochloric acid production in cloud (1976) (26)
Estimated contribution of power plants to ambient nitrogen oxides measured in Atlanta, Georgia in August 1992 (1995) (25)
H2SO4‐HNO3‐H2O ternary aerosol formation mechanism in the stratosphere (1975) (22)
Cloud Base Levels for Jupiter and Venus and the Heteromolecular Nucleation Theory (1974) (22)
Nucleation theory: Fisher's droplet picture and microscopic surface tension (1974) (21)
Fisher's droplet model and nucleation theory (1977) (15)
Ternary nucleation applied to gas to particle conversion (1975) (14)
Droplet Model NearTc: Droplet-Droplet Interaction and Correlation Function (1971) (14)
Stratospheric Aitken particles (1977) (13)
Experimental and theoretical examination of the formation of sulfuric acid particles (1978) (9)
Formation of secondary sulfuric acid aerosols in urban atmosphere (1977) (8)
Heterogeneous Nucleation and Fisher's Droplet Picture (1972) (7)
Equation of state from triple point to critical point (1972) (7)
Possibilities for Atmospheric Aerosol Formation involving NH3 (1973) (7)
Corrections to asymptotic scaling laws in a modified liquid droplet model (1971) (6)
Reply [to “Comment on “A model study of the formation of cloud condensation nuclei in remote marine areas””] (1993) (5)
Heteromolecular nucleation theory for multicomponent gas mixtures (1974) (4)
Global and regional environmental atmospheric chemistry (1990) (4)
Reply to ``Comment on `A model study of the formation of cloud condensation nuclei in remote marine areas' by Lin et al.'' (1993) (4)
Note on homogenous nucleation theories (1972) (4)
Nucleation literature review 1972 (1974) (3)
Measuring atmospheric gases and aerosols (1982) (3)
COMMENT ON A MODEL STUDY OF THE FORMATION OF CLOUD CONDENSATION NUCLEI INREMOTE MARINE AREAS BY LIN ET AL.. AUTHORS' REPLY (1993) (3)
The NASA-Ames Research Center stratospheric aerosol model. 2. Sensitivity studies and comparison with observatories (1979) (3)
Use of Liquid-Droplet Model in Calculations of the Critical Exponentδ (1970) (3)
A one-dimensional model describing aerosol formation and evolution in the stratosphere. I - Physical processes and mathematical analogs. II - Sensitivity studies and comparison with observations (1979) (2)
Nucleation theory and its atmospheric applications (1974) (2)
Properties of the stratospheric aerosol layer studied with a one-dimensional computer model (1978) (2)
Assessment of ion-induced stratospheric aerosol formation (1976) (1)
Second special issue on nucleation phenomena (1979) (0)
The Relative Importance of Various Urban Sulfate Aerosol Production Mechanisms – A Theoretical Comparison (2013) (0)
China as an Evolving Metro-Agro-Plex (China-MAP) (2002) (0)
1983 James B. Macelwane Awards: William L. Chameides (1983) (0)

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Other Resources About C. S. Kiang

en.wikipedia.org

What Schools Are Affiliated With C. S. Kiang?

C. S. Kiang is affiliated with the following schools:

C. S. Kiang's Academic­Influence.com Rankings

C. S. Kiang's Degrees

Why Is C. S. Kiang Influential?

C. S. Kiang's Published Works

Published Works

Other Resources About C. S. Kiang

What Schools Are Affiliated With C. S. Kiang?

C. S. Kiang's AcademicInfluence.com Rankings