王好，研究員，博士生導師，廣東省“珠江人才計劃”引進創新創業團隊核心成員。從事大氣環境化學研究，在大氣氧化性及二次污染的成因機制、氣溶膠活性氧在線測量儀器開發等方面取得重要成果。主持國家自然科學基金、國家重點研發計劃、廣東省科技廳和香港環保署資助的多個科研項目，累積獲得項目總經費超過1000萬元。發表學術論文120餘篇，總引用2900餘次，H指數27。擔任廣東省空氣質量科學與管理國際科技合作基地副主任，中國環境科學臭氧污染控制分會和大氣環境分會委員，以及Atmospheric Environment: X期刊編輯等學術兼職。

教育經曆

2007-04至2011-12, 昆士蘭科技大學，大氣科學,博士

工作經曆

1.2018-至今，太阳集团app首页，太阳集团1088vip，研究員

2.2016-2017，香港理工大學土木與環境工程系，研究員

3.2014-2016，東芬蘭大學應用物理系，博士後

4.2012-2014，昆士蘭科技大學，博士後

1. 氣溶膠化學

2. 大氣氧化性

3. 空氣質量與健康

1. 國家重點研發計劃專項，子課題，傳輸通道上大氣氧化性演變對二次污染的作用機制，2023-2027，88萬，在研，主持；

2. 國家重點研發計劃專項，子課題，沿海地區關鍵非均相反應機制對PM2.5和臭氧形成的貢獻，2018-2022，60萬，結題，主持；

3. 國家自然科學基金，面上項目，“華南高山森林大氣二次有機氣溶膠成因及演化模拟研究”，2019-2022，62萬，結題，主持；

4. 廣東省國際科技合作項目，“顆粒态和氣态活性氧物質的污染水平及來源解析”， 2021-2024，50萬，在研，主持；

5. 廣東省海洋經濟發展（海洋六大産業）專項項目，子課題，“海上新能源船舶清潔燃料智能供給系統研發及應用 ”，2024-2025，60萬，主持；

6. 香港環保署科技項目，“追蹤大灣區臭氧及其前體物傳輸通道研究”， 2022-2024，599萬（港币），結題，主持；

7. 國家自然科學基金重大研究計劃，重點支持項目，“光化學反應活躍區森林揮發性有機物的組成特征、二次污染成因及貢獻研究”，2016-2019，276萬，結題，參與；

8. “廣東天井山大氣環境和氣候變化專項科學考察”，廣東省科技創新平台類項目，2020-2021, 100萬，結題，參與；

9. 國家自然科學基金，面上項目，“森林揮發性含氧有機物的在線測量及其大氣化學作用”，2014-2017，90萬，結題，參與；

10. 廣州市民生科技項目，資源環境與社會服務項專題，“氣候變化對廣州大氣二次污染的影響和評估”，2020-2022，100萬，結題，參與。

（一）論文

1.Chen, X., Gong, D., Lin, Y., Xu, Q., Wang, Y., Liu, S., Li, Q., Ma, F., Li, J.,  Deng, S., Wang, H.*, Wang, B.* (2025). Emission characteristics of biogenic volatile organic compounds in a subtropical pristine forest of southern China. Journal of Environmental Sciences, 148, 665–682.

2.Zhang, S., Gong, D., Wu, G., Li, Y., Ding, Y., Wang, B.*, Wang, H.* (2024). Molecular characteristics and formation mechanisms of biogenic secondary organic aerosols in the mountainous background atmosphere of southern China. Atmospheric Environment, 329, 120540.

3.Zhang, L., Xu, T., Wu, G., Zhang, C.*, Li, Y., Wang, H., Gong, D., Li, Q.,  Wang, B.* (2024). Photochemical loss with consequential underestimation in active VOCs and corresponding secondary pollutions in a petrochemical refinery, China. Science of The Total Environment, 170613.

4.Zhang, C., Cai, Y., Yao, Q., Liu, X., Song, L., Li, J., Deng, S., Wang, H.*, Wang, B. (2024). Emission characteristics of carbonyl compounds from open burning of typical subtropical biomass in South China. Chemosphere, 350, 140979.

5.Ma, F., Zhang, G., Zhang, J., Luo, X., Liao, L., Wang, H., Tang, X., Yi, Z*. (2024). Isoprenoid emissions from Schima superba and Cunninghamia lanceolata: Their responses to elevated temperature by two warming facilities. Science of The Total Environment, 930, 172669.

6.Liu, T., Wang, Y.*, Cai, H., Wang, H., Zhang, C., Chen, J., Dai, Y., Zhao, W., Li, J., Gong, D., Chen, D., Zhai Y., Zhou Y., Liao T.,Wang B.* (2024). Complexities of peroxyacetyl nitrate photochemistry and its control strategies in contrasting environments in the Pearl River Delta region. npj Climate and Atmospheric Science, 7(1), 116.

7.Li, Q., Gong, D., Chen, Z., Li, J., Wu, G., Deng, S., Wang, H.*, He, L., & Wang, B.* (2024). Origins of formaldehyde in a mountainous background atmosphere of southern China. Science of The Total Environment, 931, 172707.

8.Li, J., Huang, C., Zhang, C.*, Wang, H., Song, L., Wang, B.* (2024). Underestimated contribution of open biomass burning to terpenoid emissions revealed by a novel hourly dynamic inventory. Science of The Total Environment, 931, 172764.

9.Guo, Y., Gong, D., Wang, H.*, Li, Q., Wu, G., Wang, Y., Cai, H., Yuan, B.*, Wang, B., Liu, S. C.* (2024). Sources of elevated organic acids in the mountainous background atmosphere of southern China. Science of The Total Environment, 914, 169673.

10.Ding, X., Gong, D., Li, Q., Liu, S., Deng, S., Wang, H.*, Li, H., Wang, B.* (2024). Development of a Refrigerant-Free Cryotrap Unit for Pre-Concentration of Biogenic Volatile Organic Compounds in Air. Atmosphere, 15(5), 587.

11.周淑婷,龔道程,張詩炀,張慶祖,王文路,劉小婷,張濤,周炎,王伯光,陳多宏,王好等.氣團來源和雲霧過程對華南高山背景區亞微米氣溶膠數譜分布的影響[J].中國環境科學,2024,44(01):28-36.

12.Wang, Y., Liu, T., Gong, D., Wang, H.*, Guo, H., Liao, M., Deng, S., Cai, H., Wang, B.*, 2023. Anthropogenic Pollutants Induce Changes in Peroxyacetyl Nitrate Formation Intensity and Pathways in a Mountainous Background Atmosphere in Southern China. Environmental Science Technology 57, 6253-6262.

13.Li, J., Zhang, C., Zhao, W., Han, S., Wang, Y., Wang, H. *, Wang, B. *, 2023. Rapid adaptive Optimization Model for Atmospheric Chemistry (ROMAC) v1. 0. Geoscientific Model Development 2023, 16, 6049–6066.

14.Wu, G., Wang, H.*, Zhang, C., Gong, D., Liu, X., Ristovski, Z., Wang, B.*, 2023. Anthropogenic pollutants induce enhancement of aerosol acidity at a mountainous background atmosphere in southern China. Science of The Total Environment 903, 166192.

15.Li, Q., Gong, D., Wang, H.*, Deng, S., Zhang, C., Mo, X., Chen, J., Wang, B.*, 2023. Tibetan Plateau is vulnerable to aromatic-related photochemical pollution and health threats: A case study in Lhasa. Science of The Total Environment 904, 166494.

16.Wu, C., H. Trounce, E. Dunne, D. W. T. Griffith, S. D. Chambers, A. G. Williams, R. S. Humphries, L. T. Cravigan, B. Miljevic, C. Zhang, H. Wang, B. Wang and Z. Ristovski (2023). Atmospheric concentrations and sources of black carbon over tropical Australian waters. Science of The Total Environment 856(Pt 2): 159143.

17.Chen, J., Liu, T., Gong, D., Li, J., Chen, X., Li, Q., Liao, T., Zhou, Y., Zhang, T., Wang, Y., Wang, H., Wang, B. *, 2023. Insight into decreased ozone formation across the Chinese National Day Holidays at a regional background site in the Pearl River Delta. Atmospheric Environment, 120142.

18.Mo, X., Gong, D., Liu, Y., Li, J., Zhao, Y., Zhao, W., Shen, J., Liao, T., Wang, H.*,   Wang, B.*, 2023. Ground-based formaldehyde across the Pearl River Delta: A snapshot and meta-analysis study. Atmospheric Environment 309, 119935.

19.Wu, C., Brown, R.A., Brown, Z.E., Trounce, H., Horchler, E.J., Wang, L., Miljevic, B., Zhang, C., Wang, H.*, Wang, B., Ristovski, Z.*, 2023. A new oxidation flow reactor for the measurements of secondary aerosol formation: Characterisation and a case study. Atmospheric Environment, 119886.

20.Wu, C., He, C., Brown, Z.E., Miljevic, B., Zhang, C., Wang, H.*, Wang, B., Morawska, L., Ristovski, Z.*, 2023. Light absorption properties of black and brown carbon during the prescribed burning season at an urban background site in Brisbane, Australia. Atmospheric Environment 313, 120072.

21.Zhao, Y., Mo, X., Wang, H., Li, J., Gong, D., Wang, D., Li, Q., Liu, Y., Liu, X., Wang, J., 2023. A Comparative Study of Ground-Gridded and Satellite-Derived Formaldehyde during Ozone Episodes in the Chinese Greater Bay Area. Remote Sensing 15, 3998.

22.Wang, W., Y. Xiao, S. Han, Y. Zhang, D. Gong, H. Wang* and B. Wang* (2023). A vehicle-mounted dual-smog chamber: Characterization and its preliminary application to evolutionary simulation of photochemical processes in a quasi-realistic atmosphere.Journal of Environmental Sciences 132: 98-108.

23.陳珺, 龔道程, 廖彤, 周炎, 張濤, 王瑞文, 王好, 陳多宏*, 王伯光* (2023) 珠三角大氣揮發性有機物的國慶效應及其源解析, 中國環境科學 43(7): 3265-3280.

24.He, C., H. Wang*#, D. Gong, S. Lv, G. Wu, R. Wang, Y. Chen, Y. Ding, Y. Li and B. Wang* (2022). Insights into high concentrations of particle-bound imidazoles in the background atmosphere of southern China: Potential sources and influencing factors.Sci Total Environ 806(Pt 4): 150804.

25.Li, Q., D. Gong, H. Wang*, Y. Wang, S. Han, G. Wu, S. Deng, P. Yu, W. Wang and B. Wang* (2022). Rapid increase in atmospheric glyoxal and methylglyoxal concentrations in Lhasa, Tibetan Plateau: Potential sources and implications. Sci Total Environ 824: 153782.

26.Li, Q., D. Gong, Y. Wang, H. Wang*, W. Wang, G. Wu, H. Guo and B. Wang* (2022). Accelerated toluene degradation over forests around megacities in southern China. Ecotoxicol Environ Saf 230: 113126.

27.Zhang, C., J. Li, W. Zhao, Q. Yao, H. Wang* and B. Wang* (2022). Open biomass burning emissions and their contribution to ambient formaldehyde in Guangdong province, China. Sci Total Environ 838(Pt 1): 155904.

28.Zhang, C., T. Xu, G. Wu, F. Gao, Y. Liu, D. Gong, H. Wang*, C. Zhang and B. Wang* (2022). Reduction of fugitive VOC emissions using leak detection and repair (LDAR) in a petroleum refinery of Pearl River Delta, China. Applied Energy 324.

29.Wang, W., S. Kimoto, R. Huang, Y. Matsui, M. Yoneda, H. Wang and B. Wang (2022). Identifying the contribution of charge effects to airborne transmission of aerosols in confined spaces. Sci Total Environ 816: 151527.

30.Cheung, H. C., C. Nie, M. Huang, T. Yang, H. Wang, C. S. L. Lee, C. Pei, J. Zhao and B. Liang (2022). Influence of Regional Pollution Outflow on Particle Number Concentration and Particle Size in Airshed of Guangzhou, South China. Aerosol and Air Quality Research 22(9).

31.Zhang, C., G. Wu, H. Wang*, Y. Wang, D. Gong and B. Wang* (2022). Regional effect as a probe of atmospheric carbon dioxide reduction in southern China. Journal of Cleaner Production 340.

32.Zhang, C., L. Bai, Q. Yao, J. Li, H. Wang*, L. Shen, O. Sippula, J. Yang, J. Zhao, J. Liu and B. Wang* (2022). Emission characteristics of polychlorinated dibenzo-p-dioxins and dibenzofurans from industrial combustion of biomass fuels.Environ Pollut 292(Pt A): 118265.

33.張揚, 韓士傑, 李勤勤, 王文路, 肖揚, 郭嚴, 王好*,  王伯光* (2022). 低NOx環境異戊二烯促進生成甲基丁烯二醛的模拟實驗. 中國環境科學 42(9): 4001-4008.

34.劉雲鳳, 龔道程, 林尤靜, 王好*, 王玉瑾, 李勤勤, 鄧碩, 徐巧, 劉世偉, 周志平, 曾慶團,  王伯光* (2022). 南嶺箭竹生物源揮發性有機物排放特征. 中國環境科學 42(2): 568-674.

35.Zhang, C. L., Y. G. Gu, H. Wang*, D. Gong, X. Li, L. Zhou and B. Wang* (2021). Emission of volatile organic compounds during aerobic decomposition of banana peel. Waste Management 130: 74-81. 

36.Wang, Y., J. Shen, H. Wang*, G. C. Wu, Y. Q. Chen, T. Liu, D. C. Gong, J. Ou, Y. K. Shi, T. Zhang, C. Q. He, D. H. Chen and B. G. Wang (2021). Unexpected seasonal variations and high levels of ozone observed at the summit of Nanling Mountains: Impact of Asian monsoon on southern China. Atmospheric Environment 253:118378. 

37.Gong, D., M. Liao, G. Wu, H. Wang*, Q. Li, Y. Chen, S. Deng, Y. Zheng, J. Ou and B. Wang* (2021). Characteristics of peroxyacetyl nitrate (PAN) in the high-elevation background atmosphere of South-Central China: Implications for regional photochemical pollution. Atmospheric Environment 254: 118424. 

38.Wang, H.*, C. He, R. L. Modini, W. Wang, X. Lu, L. Morawska (2021) Mixing State of Printer Generated Ultrafine Particles: Implications for the Complexity of Indoor Aerosols. Atmospheric Environment 259: 118550.

39.Jun Yang, Maigeng Zhou, Zhoupeng Ren, Mengmeng Li, Boguang Wang, De Li Liu, Chun-Quan Ou, Peng Yin, Jimin Sun, Shilu Tong, Hao Wang, Chunlin Zhang, Jinfeng Wang, Yuming Guo, and Qiyong Liu (2021) Projecting heat-related excess mortality under climate change scenarios in China. Nature Communication 12, 1039.

40.Morawska, L., T. Zhu, N. Liu, M. Amouei Torkmahalleh, M. de Fatima Andrade, B. Barratt, P. Broomandi, G. Buonanno, L. Carlos Belalcazar Ceron, J. Chen, Y. Cheng, G. Evans, M. Gavidia, H. Guo, I. Hanigan, M. Hu, C. H. Jeong, F. Kelly, L. Gallardo, P. Kumar, X. Lyu, B. J. Mullins, C. Nordstrøm, G. Pereira, X. Querol, N. Yezid Rojas Roa, A. Russell, H. Thompson, H. Wang, L. Wang, T. Wang, A. Wierzbicka, T. Xue and C. Ye (2021). The state of science on severe air pollution episodes: Quantitative and qualitative analysis. Environment International 156: 106732.

41.Li, B., H. Dong, J. Yang, M. Li, D. Cai, Z. Yang, C. Zhang, H. Wang, S. Bergmann, G. Lin, B. Wang (2021). “PM2.5 constituents and mortality from a spectrum of causes in Guangzhou, China.” Ecotoxicology and Environmental Safety 222: 112498.

42.Chen, R., J. Yang, D. Chen, W.-J. Liu, C. Zhang, H. Wang, B. Li, P. Xiong, B. Wang, Y. Wang, S. Li and Y. Guo (2021). Air pollution and hospital outpatient visits for conjunctivitis: a time-series analysis in Tai'an, China. Environmental Science and Pollution Research 28: 15453-15461.

43.廖敏萍, 龔道程, 王少霞, 劉濤, 王好*, 鄧碩, 歐劼, 鄭昱, 王伯光 (2021). 國慶期間南嶺背景大氣中過氧乙酰硝酸酯的濃度特征與來源. 《中國環境科學》41(6): 2493-2503.

44.Guo, L., G. R. Johnson, W. Hofmann, H. Wang and L. Morawska (2020). Deposition of ambient ultrafine particles in the respiratory tract of children: A novel experimental method and its application. Journal of Aerosol Science 139: 105465.

45.Guo, L., F. Salimi, H. Wang, W. Hofmann, G. R. Johnson, B. G. Toelle, G. B. Marks and L. Morawska (2020). Experimentally determined deposition of ambient urban ultrafine particles in the respiratory tract of children. Environment International 145: 106094.

46.Jun Yang*, Maigeng Zhou, Mengmeng Li, Peng Yin, Jianlin Hu, Chunlin Zhang, Hao Wang, Qiyong Liu*, Boguang Wang*. (2020) Fine particulate matter constituents and cause-specific mortality in China: A nationwide modelling study. Environment International 143:105927.

47.Brown, R. A., S. Stevanovic, S. Bottle, H. Wang, Z. Hu, C. Wu, B. Wang and Z. Ristovski (2020). Relationship between Atmospheric PM-Bound Reactive Oxygen Species, Their Half-Lives, and Regulated Pollutants: Investigation and Preliminary Model. Environmental Science & Technology 54(8): 4995-5002.

48.Junliang Wu, Xu Wang, Hao Wang*, Daocheng Gong, Jun Yang, Bin Jiang, Chunlin Zhang, Xuejiao Deng, Lei Zhou, Boguang Wang* (2020) Rapidly alleviating particulate matter pollution while maintaining high-speed ec onomic development in the “world’s factory”, Journal of Cleaner Production 266: 121844.

49.Chunlin Zhang, Hao Wang*, Li Bai, Changda Wu, Liran Shen, Olli Sippula, Jun Yang, Lei Zhou, Congrong He, Jun Liu, Zoran Ristovski, Lidia Morawska, Boguang Wang* (2020) Should industrial bagasse-fired boiler be phased out in China?  Journal of Cleaner Production 265:121716

50.姚倩, 沈麗冉, 張春林, 白莉, 黃江榮, 劉軍, 楊軍, 王好，王伯光 (2020). 不同燃料類型鍋爐羰基化合物的排放特征. 《中國環境科學》40 (2): 111-119.

51.Shaojun Lv, Daocheng Gong, Yaozhou Ding, Youjing Lin, Hao Wang*, Hang Ding, Gengchen Wu, Chunqian He, Lei Zhou, Shawchen Liu, Zoran Ristovski, Duohong Chen, Min Shao, Yuanhang Zhang, Boguang Wang* (2019). Elevated levels of glyoxal and methylglyoxal at a remote mountain site in southern China: Prompt in-situ formation combined with strong regional transport. Science of The Total Environment 672: 869-882.

52.Youjing Lin, Daocheng Gong, Shaojun Lv, Yaozhou Ding, Gengchen Wu, Hao Wang*, Yanlei Li, Yujin Wang, Lei Zhou, and Boguang Wang* (2019) Observations of High Levels of Ozone-Depleting CFC-11 at a Remote Mountain-Top Site in Southern China. Environmental Science & Technology Letters 6(3): 114-118. 

53.王瑞文, 張春林, 丁航, 呂少君, 丁耀洲, 王好, 王伯光 (2019). 電子制造業塑料件生産過程的揮發性有機物排放特征分析. 《環境科學學報》39 (1): 6-14.

54.Wang H.#, Lv X.P.#, Guo, H., Wang, Y., Zou, S., Ling, Z., Wang, X., Jiang, F., Zeren, Y., Pan, W., Huang, X., Shen, J. (2018) Ozone pollution around a coastal region of South China Sea: Interaction between marine and continental air. Atmospheric Chemistry and Physics, 18(6): 4277-4295.

55.Gong, D. #; Wang, H.#; Zhang, S.; Wang, Y.; Liu, S. C.; Guo, H.; Shao, M.; He, C.; Chen, D.; He, L.; Zhou, L.; Morawska, L.; Zhang,Y.; Wang, B. (2018) Low-level summertime isoprene observed at a forested mountaintop site in southern China: implications for strong regional atmospheric oxidative capacity. Atmospheric Chemistry and Physics, 18 (19), 14417−14432.

56.Zhang, Z., X. Yan, F. Gao, P. Thai, H. Wang*, D. Chen, L. Zhou, D. Gong, Q. Li, L. Morawska and Boguang Wang* (2018). Emission and health risk assessment of volatile organic compounds in various processes of a petroleum refinery in the Pearl River Delta, China. Environmental Pollution 238: 452-461.

57.Tikkanen O.P., Vasisanen O., Hao L.Q., Wang H., Virtanen A. et al. (2018) Hygroscopicity of dimethylaminium-, sulfate- and ammonium-containing nanoparticles, Aerosol Science and Technology, 52(9): 971-983.

58.Chen, G., L. Morawska, W. Zhang, S. Li, W. Cao, H. Ren, B. Wang, H. Wang, L. D. Knibbs and G. Williams (2018). Spatiotemporal variation of PM1 pollution in China.Atmospheric Environment 178: 198-205.

59.Chen, G., L. D. Knibbs, W. Zhang, S. Li, W. Cao, J. Guo, H. Ren, B. Wang, H. Wang and G. Williams (2018). Estimating spatiotemporal distribution of PM1 concentrations in China with satellite remote sensing, meteorology, and land use information.Environmental Pollution 233: 1086-1094.

60.Zhang Z., Wang H., Chen D., Li Q., Thai P., Gong D., Li Y., Zhang C., Gu Y., Zhou L., Morawska, L., Wang B. (2017) Emission characteristics of volatile organic compounds and their secondary organic aerosol formation potentials from a petroleum refinery in Pearl River Delta, China. Science of the Total Environment. 584: 1162-1174.

61.Stevanovic S., Hedayat F., Vaughan A., Salimi F., Rahman M. M., Zare A., Brown R., Wang H., Zhang Z., Wang X., Bottle S., Yang I., and Ristovski Z. (2017) The Oxidative potential of gas phase combustion emissions – an underestimated and potentially harmful component of combustion pollution. Atmospheric Environment, 158: 227-235.

62.Zhang C., Geng X., Wang H.*, Zhou L., and Wang B.* (2017) Emission factor for atmospheric ammonia from a typical municipal wastewater treatment plant in South China. Environmental Pollution, 220, Part B:963-970.

Wang Y.#, Wang H.#, Guo H.*, Lyu X., Cheng H., Ling Z., Louie P. Isobel J.S., Meinardi S., Blake D. (2017) Long term O3-precursor relationships in Hong Kong: Field observation and model simulation. Atmospheric Chemistry and Physics, 17(18): 10919-10935.

63.王安侯, 張沈陽, 王好, 龔道程, 張詩炀, 宋偉, 陳多宏, 周磊, 王伯光 (2017). 天井山空氣背景站單顆粒氣溶膠有機硫酸酯初步研究,《中國環境科學》,  37(5): 1663-1669

64.張詩炀, 龔道程, 王好, 宋偉, 張沈陽, 王安侯, 陳多宏, 周磊, 王伯光 (2017). 南嶺國家大氣背景站異戊二烯的在線觀測研究，《中國環境科學》, 37(7): 2504-2512.

（二）論著

1. Godwin A. and Wang H. (2014) Volatile organic compounds in indoor environments. Indoor Air Pollution, 2nd edition. The Handbook of Environmental Chemistry, Springer Berlin Heidelberg, pp. 1-39. DOI: 10.1007/698_2014_259.

（三）專利

1. 車載式室内室外雙煙霧箱，國家發明專利，專利号ZL 2022 1 0314296.9，授權時間：2023.4.25

2. 石油煉化裝置揮發性有機物無組織排放模型的構建方法，國家發明專利，專利号ZL 2016 1 0048678.6，授權時間： 2018.10.17

本科生課程：《大氣環境化學》

研究生課程：《高等大氣物理學》、《大氣化學與物理》

        大氣化學與氣候變遷團隊