师资队伍

王轩

王轩

副教授

Educational Background

(1) 2012-09 2017-09, 麻省理工学院, 环境化学, 博士

(2) 2009-09 2012-07, 清华大学, 环境科学与工程, 硕士

(3) 2005-09 2009-06, 南开大学, 环境工程, 学士

Bio

(1) 2019-11 2025-12,香港城市大学,能源及环境学院,助理教授

(2) 2017-10 2019-09,哈佛大学,工程与应用科学学院,博士后,导师: Daniel J. Jacob

Research Fields

大气环境模拟;大气化学传输模式的开发;气溶胶气候效应;二次气溶胶生成机制;全球卤素循环;海洋大气相互作用等。

Research Projects

2020年以来,PICo-PI身份主持科研项目获得经费总计约500万港元(460万元人民币), 其中超过420万港元(380万元人民币)来自政府机构资助的项目。

由香港和内地政府机构资助的科研项目

  1. Under-appreciated anthropogenic coarse particulate matter in China: quantifying the emission and impacts on climate and atmospheric chemistry, 香港教育资助委员会优配研究金, PI, 2025-2028, 89万港元。
  2. Marine emissions of volatile organic compounds in the Greater Bay Area: interactions with air quality and climate change, 香港教育资助委员会跨校协作研究项目, Co-PI (子课题负责人), 2025-2027, 364万港元(拨款至香港城市大学65万港元)
  3. 二次有机气溶胶模拟新方法的开发: 适用于粤港澳大湾区的AI辅助参数化方案, 深圳市基础研究专项面上项目, PI, 2025-2027, 30万元人民币。
  4. 陆面大气活性溴及其对全球大气环境影响的模拟研究, 国家自然科学基金面上项目, PI, 2024-2027, 65万元人民币。
  5. 氯氧化挥发性有机物生成二次有机气溶胶的模拟研究, 国家自然科学基金青年基金项目, PI, 2021-2023, 30万元人民币。
  6. -陆大气物理化学相互作用及其对粤港澳大湾区空气质量的影响研究, 广东省基础与应用基础研究基金粤港澳研究团队项目, Co-PI (香港方PI和子课题负责人), 200万元人民币(拨款至城市大学96万元)
  7. 海盐对我国南部沿海地区PM2.5无机组分的影响, 广东省基础与应用基础研究基金面上项目, PI, 10万元人民币。

香港城市大学内部科研项目

  1. Modeling the Tropospheric Chemistry of Iodine New Particle Formation, PI, 2023-2025, 10万港元。
  2. Development and Implementation of an Interactive Webpage Platform for Environmental Modeling Education, PI, 2023-2025, 24万港元。
  3. Modeling Iodine Chemistry in Liquid Cloud and Its Impacts on Atmospheric Oxidants, PI, 2022-2024, 10万港元。
  4. Influences of Chlorine Chemistry on SOA Formation, PI, 2021-2027, 5.9万港元。
  5. Modeling Cloud Water Acidity and its Impacts on Atmospheric Chemistry, PI, 2021-2023, 10万元港币。
  6. Modeling the Aqueous-Phase Oxidation in Aerosols, PI, 2021-2023, 1.5万港元。
  7. Investigating Absorptions of Atmospheric Brown Carbon, 2020-2022, 10万港元。
Publications

总计发表55篇论文, 总引用次数3900余次, h-index 28 (截至20261)

其中包含4 ESI高被引文章,1篇被Nature以研究重点(Research Highlight)报道,1篇被One Earth作展望(Preview)报道。

(通讯作者*, 共同第一作者#, ^标注了所指导的博士生和博士后的工作)

  1. ^Lakshani, WAE, Zhou, W, Toumi, T, Wang, X, Projected tropical cyclone genesis and seasonality changes in the Northern Hemisphere under a warming climate, npj Climate and Atmospheric Science, 8, 288, 2025.
  2. Xie, X, Zhang, Y, Liang, R, Wang, X, Global modeling of brown carbon: impact of temperature-and humidity-dependent bleaching, Atmospheric Chemistry and Physics, vol. 25, no. 20, pp. 13547-13561, 2025.
  3. Zhang, R, Minamikawa, R, Gen, M, Singh, N, Daniel, D, Li, YJ, Wang, X, Chan, CK, Evidence on Interfacial Reaction Governing NO2 Hydrolysis in Deliquesced Aerosol Particles, Environmental Science and Technology, 59, 23, 11708–11719, 2024.
  4. ^Adeyeri, OE, Zhou, W, Ndehedehe, CE, Ishola, KA, Laux, P, Akinsanola, AA, Dieng, MDB, & Wang, X, Global Heatwaves Dynamics Under Climate Change Scenarios: Multidimensional Drivers and Cascading Impacts, Earth’s Future, 13, 6, e2025EF006486, 2025.
  5. Gao, Z, Li, L, Liu, Z, Mu, J, Wang, Z, Luo, B, Zhang, J, Tang, S, Zhang, H, Hu, J, Wang, X, Zhou, X, & Zhang, Y, Impact of marine chlorine emissions on secondary organic aerosols in North China Plain, Environmental Pollution, 381, 126524, 2025.
  6. Pang, Q, Wang, X, Zhuang, B, Wang, H, & Zhang, Y, A model-based estimate for the direct radiative effect of atmospheric microplastics, Atmospheric Environment, 356, 121305, 2025.
  7. ^Lakshani, WAE, Zhou, W, Chan, JCL, Wang, X, Sandaruwan, JWND, & Ni, Z, Linkages between the Indian Ocean Basin Mode and tropical cyclone activity in the North Indian and Western North Pacific Oceans, Climate Dynamic, 53, 171, 2025.
  8. Wang, X*, Chakrabarty, RK, Schwarz, JP, Murphy, SM, Levin, EJT, Howell, SG, Guo, H, Campuzano-Jost, P, & Jimenez, J, Dark brown carbon from biomass burning contributes to significant global-scale positive forcing, One Earth, 8, 3, 101205, 2025. [Reported as Preview by One Earth, Mar 21, 2025]
  9. ^Liu, X, Liu, L, Zhang, B, Liu, P, Hung, R, Ruiz, LH, Miao, R, Chen, Q, & Wang, X*, Global Impact of Chlorine Chemistry on Secondary Organic Aerosols, Environmental Science and Technology, 58, 52, 23064–23074, 2024.
  10. Wang, X*, Zhai, S, & Shen, L, Cooling from aerosol-radiation interaction of anthropogenic coarse particles in China, npj Climate and Atmospheric Science, 7, 20, 2024.
  11. ^Liu, L, Liu, X, Zhang, R, Gen, M, Chan, CK, Song, S, & Wang, X*, Global impact of particulate nitrate photolysis on fine sulfate aerosol, Environmental Science and Technology Letters, 11, 9, 961–967, 2024.
  12. Chen, Q, Wang, X, Fu, X, Li, X, Alexander, B, Peng, X, Wang, W, Xia, M, Tan, Y, Gao, J, Chen, J, Mu, Y, Liu, P, & Wang, T, Impact of Molecular Chlorine Production from Aerosol Iron Photochemistry on Atmospheric Oxidative Capacity in North China, Environmental Science and Technology, 58, 28, 12585–12597, 2024.
  13. Zhang, B, Chellman, NJ, Kplan, JO, Mickley, LJ, Ito, T, Wang, X, Wensman, SM, McCrimmon, D, Steffensen, JP, McConnell, JR, & Liu, P, Improved biomass burning emissions from 1750 to 2010 using ice core records and inverse modeling, Nature Communications, 15, 3651, 2024.
  14. Zhai, S, McConnell, JR, Chellman, NJ, Legrand, M, Opel, T, Meyer, H, Jaeglé, L, Confer, K, Fujita, K, Wang, X & Alexander, B, Anthropogenic Influence on Tropospheric Reactive Bromine Since the Pre-industrial: Implications for Arctic Ice-Core Bromine Trends, Geophysical Research Letters, vol. 51, no. 5, e2023GL107733, 2024.
  15. ^Adeyeri, OE, Zhou, W, Ndehedehe, CE & Wang, X, Global vegetation, moisture, thermal and climate interactions intensify compound extreme events, Science of the Total Environment, vol. 912, 169261,2024.
  16. Xie, X, Zhang, Y, Liang, R, Chen, W, Zhang, P, Wang, X, Zhou, Y, Cheng, Y & Liu, J, Wintertime Heavy Haze Episodes in Northeast China Driven by Agricultural Fire Emissions', Environmental Science and Technology Letters, vol. 11, no. 2, pp. 150-157, 2024.
  17. ^Adeyeri, OE, Zhou, W, Ndehedehe, CE, Wang, X, Ishola, KA & Laux, P, Minimizing uncertainties in climate projections and water budget reveals the vulnerability of freshwater to climate change, One Earth, 7, 1, 72-82, 2024.
  18. Chen, Y, Liu, S, Zhu, L, Seo, S, Richter, A, Li, X, Ding, A, Sun, W, Shu, L, Wang, X, Valks, P, Hendrick, F, Koenig, TK, Volkamer, R, Bai, B, Wang, D, Pu, D, Sun, S, Li, J, Zuo, X, Fu, W, Li, Y, Zhang, P, Yang, X & Fu, T-M, Global Observations of Tropospheric Bromine Monoxide (BrO) Columns From TROPOMI', Journal of Geophysical Research: Atmospheres, vol. 128, no. 24, e2023JD039091, 2023.
  19. Zhai, S, Swanson, W, McConnell, JR, Chellman, N, Opel, T, Sigl, M, Meyer, H, Wang, X, Jaeglé, L, Stutz, J, Dibb, JE, Fujita, K & Alexander, B, Implications of Snowpack Reactive Bromine Production for Arctic Ice Core Bromine Preservation, Journal of Geophysical Research: Atmospheres, vol. 128, no. 20, e2023JD039257, 2023.
  20. Huang, W, Huang, R-J, Duan, J, Lin, C, Zhong, H, Xu, W, Gu, Y, Ni, H, Chang, Y & Wang, X, Size-Dependent Nighttime Formation of Particulate Secondary Organic Nitrates in Urban Air, Journal of Geophysical Research: Atmospheres, vol. 128, no. 18, e2022JD038189,2023.
  21. ^Adeyeri, OE, Zhou, W, Laux, P, Wang, X, Dieng, D, Widana, LAE & Usman, M, Land use and land cover dynamics: Implications for thermal stress and energy demands, Renewable and Sustainable Energy Reviews, vol. 179, 113274. 2023
  22. ^Sandaruwan J, WND, Zhou, W, Cheung, Pky, Du, Y & Wang, X, Characteristics and Formation of Two Leading Marine Heatwave Modes in the North Indian Ocean during Summer and Their Implications for Local Precipitation, Journal of Climate, vol. 36, no. 10, pp. 3385–3402, 2023.
  23. ^Adeyer, OE, Zhou, W, Laux, P, Ndehedehe, CE, Wang, X, Usman, M & Akinsanola, AA, Multivariate drought monitoring, propagation, and projection using bias-corrected general circulation models', Earth's Future, vol. 11, no. 4, e2022EF003303, 2023.
  24. ^He, X, Zheng, X, You, Y, Zhang, S, Zhao, B, Wang, X, Huang, G, Chen, T, Cao, Y, He, L, Chang, X, Wang, S & Wu, Y, Comprehensive chemical characterization of gaseous I/SVOC emissions from heavy-duty diesel vehicles using two-dimensional gas chromatography time-of-flight mass spectrometry, Environmental Pollution, vol. 305, 119284, 2022.
  25. Zhang, Y, Zhou, W, Wang, X, Wang, X, Zhang, R, Li, Y & Gan, J, IOD, ENSO, and seasonal precipitation variation over Eastern China, Atmospheric Research, vol. 270, 106042, 2022.
  26. Zhang, B, Shen, H, Yun, X, Zhong, Q, Henderson, BH, Wang, X, Shi, L, Gunthe, SS, Huey, LG, Tao, S, Russell, AG & Liu, P, Global Emissions of Hydrogen Chloride and Particulate Chloride from Continental Sources, Environmental Science and Technology, vol. 56, no. 7, pp. 3894–3904, 2022.
  27. Swanson, WF, Holmes, CD, Simpson, WR, Confer, K, Marelle, L, Thomas, JL, Jaeglé, L, Alexander, B, Zhai, S, Chen, Q, Wang, X & Sherwen, T, Comparison of model and ground observations finds snowpack and blowing snow aerosols both contribute to Arctic tropospheric reactive bromine, Atmospheric Chemistry and Physics, vol. 22, no. 22, pp. 14467-14488, 2022.
  28. ^He, X, Zheng, X, Zhang, S, Wang, X, Chen, T, Zhang, X, Huang, G, Cao, Y, He, L, Cao, X, Cheng, Y, Wang, S & Wu, Y, Comprehensive characterization of particulate intermediate-volatility and semi-volatile organic compounds (I/SVOCs) from heavy-duty diesel vehicles using two-dimensional gas chromatography time-of-flight mass spectrometry, Atmospheric Chemistry and Physics, vol. 22, no. 21, pp. 13935-13947, 2022.
  29. Travis, KR, Crawford, JH, Chen, G, Jordan, CE, Nault, BA, Kim, H, Jimenez, JL, Campuzano-Jost, P, Dibb, JE, Woo, J-H, Kim, Y, Zhai, S, Wang, X, Mcduffie, EE, Luo, G, Yu, F, Kim, S, Simpson, IJ, Blake, DR, Chang, L & Kim, MJ, Limitations in representation of physical processes prevent successful simulation of PM2.5 during KORUS-AQ, Atmospheric Chemistry and Physics, vol. 22, no. 12, pp. 7933-7958, 2022.
  30. Wang, H, Peng, C, Wang, X#, Lou, S, Lu, K, Gan, G, Jia, X, Chen, X, Chen, J, Wang, H, Fan, S, Wang, X & Tang, M, N2O5 uptake onto saline mineral dust: a potential missing source of tropospheric ClNO2 in inland ChinaAtmospheric Chemistry and Physics, vol. 22, no. 3, pp. 1845-1859, 2022.
  31. ^Adeyeri, OE, Zhou, W, Wang, X, Zhang, R, Laux, P, Ishola, KA & Usman, M, The trend and spatial spread of multisectoral climate extremes in CMIP6 models, Scientific Reports, vol. 12, 21000, 2022.
  32. Mao, J, Zhao, T, Keller, CA, Wang, X, Mcfarland, PJ, Jenkins, JM & Brune, WH, Global Impact of Lightning‐Produced Oxidants, Geophysical Research Letters, vol. 48, no. 21, e2021GL095740, 2021.
  33. Wang, X*, Jacob, DJ, Downs, W, Zhai, S, Zhu, L, Shah, V, Holmes, CD, Sherwen, T, Alexander, B, Evans, MJ, Eastham, SD, Neuman, JA, Veres, P, Koenig, T, Volkamer, R, Huey, GL, Bannan, TJ, Percival, CJ, Lee, BH & Thornton, JA, Global tropospheric halogen (Cl, Br, I) chemistry and its impact on oxidants, Atmospheric Chemistry and Physics, vol. 21, no. 18, pp. 13973–13996, 2021.
  34. Angelucci, AA, Furlani, TC, Wang, X, Jacob, DJ, VandenBoer, TC & Young, CJ, Understanding Sources of Atmospheric Hydrogen Chloride in Coastal Spring and Continental Winter, ACS Earth and Space Chemistry, vol. 5, no. 9, pp. 2507-2516, 2021.
  35. Zhai, S, Wang, X, Mcconnell, JR, Geng, L, ColeDai, J, Sigl, M, Chellman, N, Sherwen, T, Pound, R, Fujita, K, Hattori, S, Moch, JM, Zhu, L, Evans, M, Legrand, M, Liu, P, Pasteris, D, Chan, YC, Murray, LT & Alexander, B, Anthropogenic Impacts on Tropospheric Reactive Chlorine Since the Preindustrial, Geophysical Research Letters, vol. 48, no. 14, e2021GL093808, 2021.
  36. Chan, YC, Evans, MJ, He, P, Holmes, CD, Jaeglé, L, Kasibhatla, P, Liu, XY, Sherwen, T, Thornton, JA, Wang, X, Xie, Z, Zhai, S & Alexander, B, Heterogeneous Nitrate Production Mechanisms in Intense Haze Events in the North China Plain, Journal of Geophysical Research: Atmospheres, vol. 126, no. 9, e2021JD034688, 2021.
  37. Shah, V, Jacob, DJ, Thackray, CP, Wang X, Sunderland EM, Dibble, TS, Saiz-Lopez, A, Černušák, I, Kellö, V, Castro, PJ, Wu, R & Wang,C, Improved Mechanistic Model of the Atmospheric Redox Chemistry of Mercury, Environmental Science and Technology, doi:10.1021/acs.est.1c03160, 2021.
  38. Zhai, S, Jacob, DJ, Wang, X, Liu, Z, Wen, T, Shah, V, Li, K, Moch, JM, Bates, KH, Song, S, Shen, L, Zhang, Y, Luo, G, Yu, F, Sun, Y, Wang, L, Qi, M, Tao, J, Gui, K, Xu, H, Zhang, Q, Zhao, T, Wang, Y, Lee, HC, Choi, H & Liao, H, Control of particulate nitrate air pollution in China, Nature Geoscience, 14, 389–395, 2021. [ESI highly cited paper]
  39. Gunthe, SS, Liu, P, Panda, U, Raj, SS, Sharma, A, Darbyshire, E, Reyes-villegas, E, Allan, J, Chen, Y, Wang, X, Song, S, Pöhlker, ML, Shi, L, Wang, Y, Kommula, SM, Liu, T, Ravikrishna, R, McFiggans, G, Mickley, LJ, Martin, ST, Pöschl, U, Andreae, MO & Coe, H, Enhanced aerosol particle growth sustained by high continental chlorine emission in India, Nature Geoscience, 14, pp. 77-84, 2021. [ESI highly cited paper]
  40. Zhai, S, Jacob, DJ, Brewer, JF, Li, K, Moch, JM, Kim, J, Lee, S, Lim, H, Lee, HC, Kuk, SK, Park, RJ, Jeong, JI, Wang, X, Liu, P, Luo, G, Yu, F, Meng, J, Martin, RV, Travis, KR, Hair, JW, Anderson, BE, Dibb, JE, Jimenez, JL, Campuzano-Jost, P, Nault, BA, Woo, J-H, Kim, Y, Zhang, Q & Liao, H, Relating geostationary satellite measurements of aerosol optical depth (AOD) over East Asia to fine particulate matter (PM2.5): insights from the KORUS-AQ aircraft campaign and GEOS-Chem model simulations, Atmospheric Chemistry and Physics, vol. 21, no. 22, pp. 16775-16791, 2021.
  41. June, NA, Wang, X, Chen, L-WA, Chow, JC, Watson, JG, Wang, X, Henderson, BH, Zheng, Y & Mao, J, Spatial and Temporal Variability of Brown Carbon in the United States: Implications for Direct Radiative Effects, Geophysical Research Letters, vol. 47, no. 23, e2020GL090332, 2020.
  42. Liu, D, He, C, Schwarz, JP & Wang, X, Lifecycle of light-absorbing carbonaceous aerosols in the atmosphere, npj Climate and Atmospheric Science, vol. 3, 40, 2020.
  43. Shah, V, Jacob, DJ, Moch, JM, Wang, X & Zhai, S, Global modeling of cloud water acidity, precipitation acidity, and acid inputs to ecosystems, Atmospheric Chemistry and Physics, vol. 20, no. 20, pp. 12223-12245, 2020.
  44. Wang, X*, Jacob DJ, Fu, X, Wang, T, Breton, ML, Hallquist, M, Liu, Z, McDuffie, EE, & Liao, H, Effects of Anthropogenic Chlorine on PM2.5 and Ozone Air Quality in China. Environmental Science and Technology, 54, 16, 9908–9916, 2020.
  45. Shen, L, Jacob, DJ, Santillana, M, Wang, X, & Chen, W, An adaptive method for speeding up the numerical integration of chemical mechanisms in atmospheric chemistry models: application to GEOS-Chem version 12.0.0. Geoscientific Model Development, 13, 2475-2486, 2020.
  46. Horowitz, HM, Holmes, C, Wright, A, Sherwen, T, Wang, X, Evans, M, Huang, J, Jaeglé, L, Chen, Q,  Zhai, S, & Alexander, B, Effects of Sea Salt Aerosol Emissions for Marine Cloud Brightening on Atmospheric Chemistry: Implications for Radiative Forcing. Geophysical Research Letters, 47, e2019GL085838, 2020.
  47. Travis, KR, Heald, CL, Allen, HM, Apel, EC, Arnold, SR, Blake, DR, Brune, WH, Chen, X, Commane, R, Crounse, JD, Daube, BC, Diskin, GS, Elkins, JW, Evans, MJ, Hall, SR, Hintsa, EJ, Hornbrook, RS, Kasibhatla, PS, Kim, MJ, Luo, G, McKain, K, Millet, DB, Moore, FL, Peischl, J, Ryerson, TB, Sherwen, T, Thames, AB, Ullmann, K, Wang, X, Wennberg, PO, Wolfe, GM & Yu, F, Constraining remote oxidation capacity with ATom observations, Atmospheric Chemistry and Physics, vol. 20, no. 13, pp. 7753-7781, 2020.
  48. Zhu, L, Jacob, DJ, Eastham, SD, Sulprizio, MP, Wang, X, Sherwen, T, Evans, MJ, Chen, Q, Alexander, B, Koenig, TK, Volkamer, R, Huey, LG, Le Breton, M, Bannan, TJ & Percival, CJ, Effect of sea salt aerosol on tropospheric bromine chemistry, Atmospheric Chemistry and Physics, vol. 19, no. 9, pp. 6497-6507, 2019.
  49. Zhai, S, Jacob, DJ, Wang, X, Shen, L, Li, K, Zhang, Y, Gui, K, Zhao, T & Liao, H, Fine particulate matter (PM2.5) trends in China, 2013-2018: separating contributions from anthropogenic emissions and meteorology, Atmospheric Chemistry and Physics, vol. 19, no. 16, pp. 11031-11041, 2019. [ESI highly cited paper]
  50. Wang, X*, Jacob, DJ, Eastham, SD, Sulprizio, MP, Zhu, L, Chen, Q, Alexander, B, Sherwen, T, Evans, MJ, Lee, BH, Haskins, JD, Lopez-Hilfiker, FD, Thornton, JA, Huey, GL & Liao, H, The role of chlorine in global tropospheric chemistry, Atmospheric Chemistry and Physics, vol. 19, no. 6, pp. 3981-4003, 2019. [ESI highly cited paper]
  51. Wang, X*, Heald, CL, Liu, J, Weber, RJ, Campuzano-Jost, P, Jimenez, JL, Schwarz, JP & Perring, AE, Exploring the observational constraints on the simulation of brown carbon, Atmospheric Chemistry and Physics, vol. 18, no. 2, pp. 635-653, 2018.
  52. Wang, X*, Heald, CL, Sedlacek, AJ, de Sá, SS, Martin, ST, Alexander, ML, Watson, TB, Aiken, AC, Springston, SR & Artaxo, P, Deriving brown carbon from multiwavelength absorption measurements: method and application to AERONET and Aethalometer observations, Atmospheric Chemistry and Physics, vol. 16, no. 19, pp. 12733-12752, 2016.
  53. Wang, X*, Heald, CL, Ridley, DA, Schwarz, JP, Spackman, JR, Perring, AE, Coe, H, Liu, D & Clarke, AD, Exploiting simultaneous observational constraints on mass and absorption to estimate the global direct radiative forcing of black carbon and brown carbon, Atmospheric Chemistry and Physics, vol. 14, no. 20, pp. 10989-11010, 2014. [Featured as Nature Research Highlight, Nov. 6, 2014]
  54. Wang, X, Wang, Y, Hao, J, Kondo, Y, Irwin, M, Munger, JW & Zhao, Y, Top-down estimate of China's black carbon emissions using surface observations: Sensitivity to observation representativeness and transport model error, Journal of Geophysical Research: Atmospheres, vol. 118, no. 11, pp. 5781-5795, 2013.
  55. Wang, Y, Wang, X, Kondo, Y, Kajino, M, Munger, JW & Hao, J, Black carbon and its correlation with trace gases at a rural site in Beijing: Top-down constraints from ambient measurements on bottom-up emissions, Journal of Geophysical Research: Atmospheres, vol. 116, no. D24, 24304, 2011.
Teaching

SEE5201: Air Pollution and Atmospheric Chemistry (硕士研究生课程) , 2020-2025

SEE8211: Air Pollution and Atmospheric Chemistry (博士研究生课程) , 2020-2025

SEE4204: Environmental Systems Modeling (本科生课程) , 20202025

SEE4219: Air Quality Modeling (本科生课程) , 2021-2025

SEE2201: Fundamentals of Environmental Engineering (本科生课程,负责其中的空气污染和大气环境变化部分) , 2020-2024

新课程开发: SEE4204, SEE4219, SEE5201, SEE8211

主持教学项目: Development and Implementation of an Interactive Webpage Platform for Environmental Modeling Education, PI, Teaching Development Grant, 24万港元。

Other Professional Activities

香港城市大学校级:

(1) 学生发展中央资料库委员会成员, 2023-2025

(2) 校学术行为规范委员会成员, 2021-2022

能源及环境学院:

(1) 大气及气候科学辅修专业学位负责人, 2022-2025

(2) 学院教职员-研究生协商委员会成员, 2024-2025

(3) 学院博士项目委员会成员, 2021-2025

(4) 学院科研委员会成员, 2022-2024

(5) 大气与气候系列讲座组织者, 2021-2022

学术兼职:

(1) 青年编委员会成员(Early Career Board member), ACS ES&T Air, 2023至今

(2) 美国地球物理联盟(AGU)成员

(3) 欧洲地球物理联盟(EGU)成员

(4) 香港初创公司Vision Carbon Limited初创导师和顾问, 2022至今 

科研项目评审专家:

(1) 美国自然科学基金(National Science Foundation, NSF

(2) 国家自然科学基金

(3) 广东省基础与应用基础研究基金

(4) 美国Spark Climate Solutions, Inc.非营利组织资助项目

期刊审稿人:

Science, Science Advances, Nature Geoscience, Nature Communications, Communication Earth and Environment, Geophysical Research Letter, Journal of Geophysical Research: Atmosphere, Environmental Science and Technology, Environmental Science and Technology Letters, Atmospheric Chemistry and Physics, ACS Earth and Space Chemistry, ACS ES&T Air, Atmospheric Environment, Earth’s Future, Environmental Pollution, Environmental International, Geoscientific Model Development, Journal of Environmental Management, Journal of Cleaner Production, National Science Review.