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王好教授

工作单位:暨南大学环境与气候研究院

电话:

邮箱:wanghao@jnu.edu.cn

研究方向:

个人简介


   2002年毕业于北京航空航天大学材料科学与工程学院,之后在中国科学院广州地球化学研究所有机地球化学国家重点实验室从事环境分析化学研究。2007年初获全额奖学金赴澳大利亚昆士兰科技大学Queensland University of Technology (QUT)学习,研究与激光打印机相关的二次有机气溶胶的形成机制,于2011年获大气科学专业博士学位。201110月到20141月,在QUT国际空气质量与健康实验室从事生物柴油发动机超细颗粒物排放方面的博士后研究工作。20142月到20163月,在东芬兰大学University of Eastern Finland (UEF)应用物理系从事气溶胶-云-气候交互作用的相关研究工作。自2015年10月开始,以瑞士欧洲核子中心(CERN)访问研究员的身份参与到(Cosmics Leaving OUtdoor Droplets)CLOUD项目,研究宇宙辐射对气溶胶理化性能的影响。从20163月开始,被聘为暨南大学兼职研究员。曾担任第八届亚洲气溶胶国际会议的学术顾问和第十届健康建筑国际会议的分会主席,在本领域高水平SCI学术期刊如Environmental Science & TechnologyAtmospheric Chemistry and Physics, Science of Total EnvironmentIndoor Air等发表20多篇科研论文,并担任多份国际重要期刊的审稿人。

教育背景:

1、20074-201111月,澳大利亚昆士兰科技大学,空气质量与健康国际实验室,大气科学专业,博士学位,导师:Lidia Morawska教授 /澳洲科学院院士。

2、20029-20077月,中国科学院广州地球化学研究所,有机地球化学国家重点实验室,环境科学专业,硕博连读,导师:王新明研究员。

3、19989-20027月,北京航空航天大学,材料科学与工程学院,材料科学与工程专业,学士学位

工作经历:

1、20181-至今,暨南大学环境与气候研究院,特聘研究员

2、201610-201710月,香港理工大学土木与环境工程系,研究员

3、20163-201712月,暨南大学环境与气候研究院,兼职研究员

4、20142月-20162月,东芬兰大学应用物理系,及芬兰国家大气科学研究中心的气溶胶物理实验室,博士后

5、201111月-20141月,澳大利亚昆士兰科技大学,国际空气质量与健康实验室,博士后





研究方向


  聚焦于人为源与天然源交互过程的大气化学研究。采用包括野外观测、数值计算和准真实大气条件下双烟雾箱模拟等多种手段,综合研究人为源与天然源交互过程(简称:A-B交互)中大气氧化性及二次污染物(如臭氧和颗粒物等)的生成机制、演变规律和环境气候与健康效应。



荣誉奖励


1.  2020年,中国环境科学学会臭氧污染控制专业委员会委员;

2.2020年,中澳空气质量科学与管理年会共同主席;

3.2013年,第八届亚洲气溶胶大会的学术顾问;

4.2012,第十届国际健康建筑大会的分会主席

5.2007年,获澳大利亚全额博士生奖学金;



学术论著


已获批的发明专利:

王伯光、龚道程、张春林、李杨、高洁、周磊、王好、张志娟、高伟、周振,石油炼化装置挥发性有机物无组织排放模型的构建方法,国家发明专利,专利号ZL 2016 1 0048678.6,授权时间: 2018.10.17

出版的著作:

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.

发表的代表性论文(第一作者#/通讯作者*):

1)             He, C.#, Wang, H.#*, Gong, D., Lv, S., Wu, G., Wang, R., Chen, Y., Ding, Y., Li, Y., Wang, B., (2021) Insights into high concentrations of particle-bound imidazoles in the background atmosphere of southern China: potential sources and influencing factors. Science of The Total Environment :150804. Doi: 10.1016/j.scitotenv.2021.150804

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

3)             Wang, Y., Shen, J., Wang, H.*, Wu, G., Chen, Y., Liu, T., Gong, D., Ou, J., Shi, Y., Zhang, T., He, C.,  Chen, D., and Wang, B. (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.

4)             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 Environment254: 118424.

5)             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.

6)             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 Management130: 74-81.

7)             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 economic development in the “world’s factory”, Journal of Cleaner Production 266: 121844.

8)             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

9)             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.

10)         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.

11)         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.

12)         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.

13)         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.

14)         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.

15)         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.

16)    Wang H.#, He C., Morawska L.*, McGarry P. and Johnson G. (2012) Ozone-initiated particle formation, particle ageing and precursors in a laser printer.Environmental Science & Technology, 46 (2): 704-712.

17)         廖敏萍, 龚道程, 王少霞, 刘涛, 王好*, 邓硕, 欧劼, 郑昱, 王伯光(2021). 国庆期间南岭背景大气中过氧乙酰硝酸酯的浓度特征与来源. 中国环境科学41(6): 2493-2503.

18)         刘云凤, 龚道程, 林尤静, 王好*, 王玉瑾, 李勤勤, 邓硕, 徐巧, 刘世伟, 周志平, 曾庆团, 王伯光(2021, 南岭箭竹生物源挥发性有机物排放特征研究. 中国环境科学41(待刊)

发表的其他期刊论文:

19)    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. 一区

20)    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 International145: 106094. 一区

21)     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 International156: 106732. 一区

22)     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. 一区

23)    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. [28] 一区

24)    Pourkhesalian, A. M., Stevanovic, S., Salimi F., Rahman, M. M., Wang H., Pham, P. X., Bottle S.E., Masri, A. R., Brown, R. J., Ristovski, Z. D. (2014) Influence of fuel molecular structure on the volatility and oxidative potential of biodiesel particulate matter. Environmental Science & Technology, 48 (21): 12577-12585. 一区

25)  Morawska L., Mengersen K., Wang H., Tayphasavanh F., Darasavong K. and Holmes N.S. (2011) Pollutant concentrations within households in Lao PDR and association with housing characteristics and occupants’ activities.Environmental Science & Technology, 45 (3): 882-889. [9]

26)    Morawska L., He C., Johnson G., Jayaratne R., Salthammer T., Wang H., Uhde E., Bostrom T., Modini R., Ayoko G., McGarry P. and Wensing M. (2009) An Investigation into the characteristics and formation mechanisms of particles originating from the operation of laser printers.Environmental Science & Technology, 43 (4): 1015-1022. [124]

27)   McGarry P., Morawska L., He C., Jayaratne R., Falk M., Tran Q. and Wang H. (2011) Exposure to ultrafine particles from laser printers operating within office workplaces. Environmental Science & Technology, 45 (15): 6444-6452.

28)  Zou Y., Deng X.J., Zhu D., Gong D.C., Wang H., Li F., Tan H.B., Deng T., Mai B.R., Liu X.T., and Wang B.G. (2015) Characteristics of 1 year observational data of VOCs, NOx and O3 at a suburban site in Guangzhou, China, Atmospheric Chemistry and Physics, 15: 6625-6636. [164]

29)    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. 二区

30)    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. 三区

31)    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. 三区

32)     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.[2] 三区

33)     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.[40] 三区

34)    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. [87] 一区

35)  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. [50]

36) 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. [17]

37)  He C., Knibbs L.D., Tran Q., Wang H., Laiman R., Wang B.G., Gu Y.G. and Morawska L. (2016)Unexpected Increase in Indoor Pollutants after the Introduction of a Smoke-Free Policy in a Correctional Centre, Indoor Air, 26(4): 623-633. [3]

38)  Zhou M., Gong D.C., Zhu D., Wang H., Zhou L., Feng Q., Shuang J., Zhang Z.J., Ouyang X.W. and Wang B.G. (2015) Measurement of carbonyls in exhaust gases of light-duty vehicles in China using pentafluorophenyl hydrazine derivatization and GC/MS analysis. International Journal of Environmental Analytical Chemistry.

39) Wang, B.G., Ling, X., Zhou, L., Wang, H., Zhang, C.L. (2014) A health risk assessment of carbonyl-containing volatile organic compounds in the atmosphere of Chinese megacities. Social Sciences in China, 35(3): 143-157.  

40) Rahman, M. M., Pourkhesalian, A. M., Jahirul, M. I., Stevanovic, S., Pham, P. X., Wang, H., Masri, A. R., Brown, R. J., Ristovski, Z. D. (2014). Particle emissions from biodiesels with different physical properties and chemical composition. Fuel, 134:201-208.

41)   Wang B.G., Gu Y.G., Zhou L., Wang H., Gao W., Zhou Z. (2014) Determination of Dimethyl Sulfide in Gas Samples by Single Photon Ionization Time of Flight Mass Spectrometry. Analytical Letters, 47 (12): 2003-2011.

42)  Pham P., Bodisco T., Stevanovic S., Rahman M., Wang H., Ristovski Z., Brown R., Masri A. (2013) Engine performance characteristics for biodiesels of different unsaturation degrees and carbon chain lengths. SAE International Journal of Fuels and Lubricants, 6 (1):188-198.

43)  Mengersen K., Morawska L., Wang H., Murphy N., Tayphasavanh F., Darasavong K. and Holmes N.S. (2011) Association between indoor air pollution measurements and respiratory health in women and children in Lao PDR.Indoor Air, 21 (1): 25-35.

44) Mengersen K., Morawska L., Wang H., Tayphasavanh F., Darasavong K. and Holmes N.S. (2011) The effect of housing characteristics and occupant activities on the respiratory health of women and children in Lao PDR.Science of the Total Environment, 409 (8): 1378-1384.

45)     He C., Morawska L., Wang H., Jayaratne R., McGarry P., Johnson G., Bostrom T., Gonthier J. and Authemayou S. (2010) Quantification of the relationship between fuser roller temperature and laser printer emissions.Journal of Aerosol Science, 41 (6): 523-530. [50]

46)      Morawska L., Wang H., Ristovski Z., Jayaratne R., Johnson G., Cheung H. C., Ling X., He C. (2009) Environmental monitoring of airborne nanoparticles.Journal of Environmental Monitoring, 11 (10): 1758-1773. [50]

47)     Zhao L.R., Wang X.M., He Q.S., Wang H., Sheng G.Y, Chan L.Y., Fu J.M. (2004) Exposure to hazardous volatile organic compounds, PM10 and CO while walking along streets in urban Guangzhou, China.Atmospheric Environment, 38 (36), 6177-6184.

48)         赵文龙, 张春林, 李云鹏, 杨军, 陈雅秋, 王好, 王瑜, 王少霞, 邵世云, 王伯光(2021) .台风持续影响下中山市大气O3污染过程分析.《中国环境科学》待刊.

49)         姚倩, 沈丽冉, 张春林, 白莉, 黄江荣, 刘军, 杨军, 王好,王伯光 (2020). 不同燃料类型锅炉羰基化合物的排放特征. 中国环境科学40 (2): 111-119.

50)         王瑞文, 张春林, 丁航, 吕少君, 丁耀洲, 王好, 王伯光 (2019). 电子制造业塑料件生产过程的挥发性有机物排放特征分析. 环境科学学报39 (1): 6-14.

51)         王安侯, 张沈阳, 王好, 龚道程, 张诗炀, 宋伟, 陈多宏, 周磊, 王伯光 (2017). 天井山空气背景站单颗粒气溶胶有机硫酸酯初步研究,中国环境科学,  37(5): 1663-1669

52)         张诗炀, 龚道程, 王好, 宋伟, 张沈阳, 王安侯, 陈多宏, 周磊, 王伯光 (2017). 南岭国家大气背景站异戊二烯的在线观测研究,《中国环境科学, 37(7): 2504-2512.

53)         高凡, 贾建业, 王好,王新明 (2006) 广州市农业土壤中六六六(HCH)的残留特征. 环境科学与技术》, 29 (11): 10-14.

54)         赵利容, 王新明, 何秋生, 丁翔, 李龙凤, 王好 (2005). 广州市街道交通高峰期PM2.5/ PM10 质量浓度的初步研究,《环境化学》,  24(3): 348.

55)         胡学寅, 王好(2003).新型水煤浆分散剂的合成与应用研究. 《能源技术》, 24 (3): 110-112.


科研项目


1、第六批“珠江人才计划”引进创新创业团队“含碳组分大气环境行为及效应研究团队”2000万,2017-2022核心成员

2、华南高山森林大气二次有机气溶胶成因及演化模拟研究,国家自然科学基金面上项目(41877370),62万元,2019/1-2022/12,负责人;

3、“珠三角PM2.5和臭氧综合防控技术与精准施策示范”项目,课题一“粤港澳区域二次气溶胶与臭氧污染的耦合形成机理”,子课题:沿海地区关键非均相反应机制对PM2.5和臭氧形成的贡献”(2018YFC0213901),国家重点研发计划专项,60万元,2018/6-2021/6,子课题负责人;

4、颗粒态和气态活性氧物质的污染水平及来源解析,广东省国际科技合作项目(2021A0505030044),50万元,2021/1-2022/12,负责人;

5、光化学反应活跃区森林挥发性有机物的组成特征、二次污染成因及贡献研究,国家自然科学基金重大研究计划重点支持项目(91544215),276万元,2016/01-2019/12,核心成员;

6、广东天井山大气环境和气候变化专项科学考察,广东省科技创新平台类项目(2019B121202002),2020-012021-12100万元, 核心成员;

7、 森林挥发性含氧有机物的在线测量及其大气化学作用41373116),国家自然科学基金面上项目,90万元,2014/01-2017/12,核心成员;

8、 苯系物生成二次有机气溶胶的模拟与观测研究40673074),国家自然科学基金面上项目,37万,2007/01-2009/12,核心成员;

9、典型化工行业挥发性有机物控制技术集成及示范,广东省重点领域研发计划项目(2019B110206002),640万元, 2019-92022-8,核心成员;

10、气候变化对广州大气二次污染的影响和评估,广州市民生科技项目资源环境与社会服务项专题,100万元,2020/4-2022/3,核心成员。



研究团队




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