Chenghao Wang
Chenghao Wang
Department of Earth System Science, Stanford University
Verified email at stanford.edu - Homepage
Title
Cited by
Cited by
Year
Quantifying the impact of urban trees on passive pollutant dispersion using a coupled large-eddy simulation–Lagrangian stochastic model
C Wang, Q Li, ZH Wang
Building and Environment 145, 33–49, 2018
362018
Cooling effect of urban trees on the built environment of contiguous United States
C Wang, ZH Wang, J Yang
Earth's Future 6 (8), 1066–1081, 2018
362018
Environmental cooling provided by urban trees under extreme heat and cold waves in U.S. cities
C Wang, ZH Wang, CY Wang, SW Myint
Remote Sensing of Environment 227, 28–43, 2019
352019
Gas transfer velocities of methane and carbon dioxide in a subtropical shallow pond
S Xiao, H Yang, D Liu, C Zhang, D Lei, Y Wang, F Peng, Y Li, C Wang, ...
Tellus B: Chemical and Physical Meteorology 66 (1), 23795, 2014
342014
Projecting population growth as a dynamic measure of regional urban warming
C Wang, ZH Wang
Sustainable Cities and Society 32, 357–365, 2017
232017
The regional impact of urban heat mitigation strategies on planetary boundary‐layer dynamics over a semi‐arid city
J Song, ZH Wang, C Wang
Journal of Geophysical Research: Atmospheres 123 (12), 6410–6422, 2018
212018
Methane formation and consumption processes in Xiangxi Bay of the Three Gorges Reservoir
C Wang, S Xiao, Y Li, H Zhong, X Li, F Peng
Scientific Reports 4, 4449, 2014
202014
Landscape determinants of spatio-temporal patterns of aerosol optical depth in the two most polluted metropolitans in the United States
C Wang, CY Wang, SW Myint, ZH Wang
Science of the Total Environment 609, 1556–1565, 2017
182017
Urban water capacity: Irrigation for heat mitigation
C Wang, ZH Wang, J Yang
Computers, Environment and Urban Systems 78, 101397, 2019
142019
Size matters: What are the characteristic source areas for urban planning strategies?
ZH Wang, C Fan, SW Myint, C Wang
PLoS ONE 11 (11), e0165726, 2016
142016
Biospheric and anthropogenic contributors to atmospheric CO2 variability in a residential neighborhood of Phoenix, Arizona
J Song, ZH Wang, C Wang
Journal of Geophysical Research: Atmospheres 122 (6), 3317–3329, 2017
122017
Population dynamics modify urban residents’ exposure to extreme temperatures across the United States
J Yang, L Hu, C Wang
Science Advances 5 (12), eaay3452, 2019
112019
Theoretical model for diffusive greenhouse gas fluxes estimation across water-air interfaces measured with the static floating chamber method
S Xiao, C Wang, RJ Wilkinson, D Liu, C Zhang, W Xu, Z Yang, Y Wang, ...
Atmospheric Environment 137, 45–52, 2016
92016
A network-based toolkit for evaluation and intercomparison of weather prediction and climate modeling
C Wang, ZH Wang
Journal of Environmental Management 268, 110709, 2020
42020
Perceptions of urban heat island mitigation and implementation strategies: survey and gap analysis
C Wang, ZH Wang, KE Kaloush, J Shacat
Sustainable Cities and Society 66, 102687, 2021
32021
Response of natural vegetation to climate in dryland ecosystems: A comparative study between Xinjiang and Arizona
F Zhang, C Wang, ZH Wang
Remote Sensing 12 (21), 3567, 2020
32020
Emergence of urban clustering among U.S. cities under environmental stressors
C Wang, ZH Wang, Q Li
Sustainable Cities and Society 63, 102481, 2020
32020
Early-warning signals for critical temperature transitions
C Wang, ZH Wang, L Sun
Geophysical Research Letters 47 (14), e2020GL088503, 2020
32020
A backward-Lagrangian-stochastic footprint model for the urban environment
C Wang, ZH Wang, J Yang, Q Li
Boundary-Layer Meteorology 168 (1), 59–80, 2018
32018
Extreme methane bubbling emissions from a subtropical shallow eutrophic pond
S Xiao, W Liu, H Yang, D Liu, Y Wang, F Peng, Y Li, C Wang, C Zhang, ...
Austin Biometrics and Biostatistics 1 (2), id1006, 2014
22014
The system can't perform the operation now. Try again later.
Articles 1–20