基本情况介绍

方晶云(Jingyun Fang),女,教授,博士生导师。国家杰出青年基金获得者,ACS ES&T Engineering副主编,英国皇家化学学会会士。1999-2010在哈尔滨工业大学市政环境工程学院获得本科、硕士和博士学位,2010-2012在香港科技大学土木与环境工程系从事博士后研究。主要从事水污染控制理论和技术研究,包括自由基化学、高级氧化/消毒技术等。发表SCI论文80余篇,获得国家自然科学杰出青年基金和优秀青年基金项目资助,获得2020 James J. Morgan ES&T Early Career Award、“首创水星奖” 科学创新类银奖和南京大学紫金全兴“青年学者奖”,入选“全球高被引科学家”(2020、2022)。

 

 

欢迎具有环境、化学、生物等背景的人才加入课题组

(课题组网站://bcweb168.com/fangjingyun/)

 

联系方式

  • 广州市大学城外环东路132号 博彩网站-博彩担保网-博彩评级网
  • e-mail: [email protected]

 

教育经历

  • 2006/09 – 2010/04,哈尔滨工业大学,市政环境工程学院,博士 
  • 2007/10 – 2008/04,香港科技大学,土木与环境工程系,交流博士生
  • 2003/09 – 2006/07,哈尔滨工业大学,市政环境工程学院,硕士
  • 1999/09 – 2003/07,哈尔滨工业大学,市政环境工程学院,学士

 

工作经历

  • 2020 – 至今,中山大学,博彩网站 ,教授
  • 2013 – 2019,中山大学,博彩网站 ,“百人计划”副教授
  • 2010 – 2012,香港科技大学,土木与环境工程系,博士后

 

讲授课程
本科生课程:环境生物学、水环境与人类健康(通识课)、

研究生课程:论文写作与学术规范、环境有机化学

 

研究方向

水污染控制理论与技术,主要包括:

  • 卤素自由基水污染控制机理及其调控
  • 硫酸根自由基水污染物控制机理及其调控
  • 新型紫外光解高锰酸钾高级氧化体系

 

代表性科研项目

  1. 国家自然科学基金杰出青年基金,水污染控制化学,2024-2028
  2. 国家自然科学基金面上项目,典型高级氧化体系中含氮自由基的生成转化机理及其毒性风险控制,2022-2025
  3. 国家自然科学基金优秀青年基金,水污染控制卤素自由基化学,2020-2022 
  4. 国家自然科学基金面上项目,典型高级氧化体系中含氯自由基的生成转化规律及其降解PPCPs的机理,2017-2020
  5. 国家自然科学基金面上项目,基于硫酸根自由基的高级氧化工艺中溴酸盐的形成机理和控制,2014-2017
  6. 国家自然科学基金青年基金,UV与UV/过硫酸盐技术对新兴含氮消毒副产物降解的效能与机理研究,2012-2014

 

学术兼职:

  1. 期刊ACS ES&T Engineering副主编
  2. 期刊ACS ES&T Engineering编委
  3. 期刊Environmental Science: Water Research & Technology编委
  4. 中国化学会应用化学学科委员会委员
  5. 《工业水处理》第七届编委会委员
  6. 期刊Journal of Hazardous Materials客座编辑
  7. 期刊Separation and Purification Technology客座编辑
  8. 国际水协会(IWA)中国青年委员会委员

 

获奖及荣誉:

  1. 2023年,国家自然科学基金杰出青年基金
  2. 2022年,英国皇家化学会会士
  3. 2022年,南京大学紫金全兴“青年学者奖”
  4. 2022年,全球高被引科学家(科睿唯安)
  5. 2020年,全球高被引科学家(科睿唯安)
  6. 2020 James J. Morgan ES&T Early Career Award
  7. 2019年,国家自然科学基金优秀青年基金
  8. 2019年,国际水协会中国青年委员会(IWA-China YWP)“首创水星奖”银奖
  9. 2018年,英国皇家化学学会(RSC) 期刊Environmental Science: Water Research & Technology “Emerging Investigator”
  10. 2015年,“广东省特支计划”科技创新青年拔尖人才

 

主要代表作

  1. Guo, K., Wu, Z., Chen, C., Fang J.* (2022) UV/chlorine process: An efficient advanced oxidation process with multiple radicals and functions in water treatment. Accounts of Chemical Research, 55 (3): 286-297
  2. Zheng, S., Qin, W., Ji, H., Guo, W., Fang J.* (2023) Predicting rate constants of reactive chlorine species toward organic compounds by combining machine learning and quantum chemical calculation. Environmental Science & Technology Letters, 10 (9): 804-809
  3. He, S., Ling, L., Wu, Y., Yang, S., Hua, Z., Tang, K., Wang, M., Zhu, M., Fang J.* (2023) Roles of activated carbon in UV/chlorine/activated carbon–TiO2 process for micropollutant abatement and DBP control. Environmental Science & Technology, 57 (24): 9055-9063
  4. Yang, X., Wang, A., Hua, Z., Wei, W., Cao, Y., Fu, B., Chen, S., Dong, Z., Fang J.* (2023) Overlooked roles of Cl2O and Cl2 in micropollutant abatement and DBP formation by chlorination. Water Research, 229: 119449
  5. Wang, L., Mai, Y., Li, S., Shu, L., Fang J.* (2023) Breakpoint chlorination enhances the disinfection of Amoeba Spores and their intraspore bacteria. Environmental Science & Technology Letters, 10 (3): 267-273
  6. Wang, A., Zhu, B., Huang, C., Zhang, W., Wang, M., Li, X., Ling, L., Ma, J., Fang J.* (2023) Generation mechanism of singlet oxygen from the interaction of peroxymonosulfate and chloride in aqueous systems. Water Research, 235: 119904
  7. Hua, Z., Li, J., Zhou, Z., Zheng, S., Zhang, Y., Fang J.* (2022) Exploring pathways and mechanisms for dichloroacetonitrile formation from typical amino compounds during UV/chlorine treatment. Environmental Science & Technology, 56 (13): 9712-9721
  8. Wei, W., Wang, A., Guo, K., He, S., Li, A., Kang, X., Fang J.* (2022) Enhanced degradation of micropollutants by UV/freshly formed colloidal MnO2: Reactive species, kinetics and pathways. Applied Catalysis B: Environmental, 313: 121441
  9. Wang, L., Ye, C., Guo, L., Chen, C., Kong, X., Chen, Y., Shu, L., Wang, P., Yu, X.*, Fang J.* (2021) Assessment of the UV/chlorine process in the disinfection of Pseudomonas aeruginosa: Efficiency and mechanism. Environmental Science & Technology, 55 (13): 9221-9230
  10. Wang, A., Hua, Z., Wu, Z., Chen, C., Hou, S., Huang, B., Wang, Y., Wang, D., Li, X., Li, C., Fang J.* (2021) Insights into the effects of bromide at fresh water levels on the radical chemistry in the UV/peroxydisulfate process. Water Research, 197: 117042
  11. Chen, C., Du, Y., Zhou, Y., Wu, Q., Zheng, S., Fang J.* (2021) Formation of nitro(so) and chlorinated products and toxicity alteration during the UV/monochloramine treatment of phenol. Water Research, 194: 116914
  12. Hua Z., Li D., Wu Z., Wang D., Cui Y., Huang X., Fang J.*, An T. (2021) DBP formation and toxicity alteration during UV/chlorine treatment of wastewater and the effects of ammonia and bromide. Water Research 188, 116549.
  13. Chen C., Wu Z., Zheng S., Wang L., Niu X., Fang J.* (2020) Comparative Study for interactions of sulfate radical and hydroxyl radical with phenol in the presence of nitrite. Environmental Science & Technology 54(13), 8455-8463.
  14. Guo K., Zheng S., Zhang X., Zhao L., Ji S., Chen C., Wu Z., Wang D., Fang J. (2020) Roles of bromine radicals and hydroxyl radicals in the degradation of micropollutants by the UV/bromine process. Environmental Science & Technology 54(10), 6415-6426.
  15. Zhou Y., Chen C., Guo K., Wu Z., Wang L., Hua Z., Fang J.* (2020) Kinetics and pathways of the degradation of PPCPs by carbonate radicals in advanced oxidation processes. Water Research 185, 116231.
  16. Wu, Z., Chen, C., Zhu, B., Huang, C., An, T., Meng, F., Fang, J.* (2019) Reactive nitrogen species are also involved in the transformation of micropollutants by the UV/monochloramine process. Environmental Science & Technology 53(19), 11142-11152.
  17. Hua, Z., Guo, K., Kong, X., Lin, S., Wu, Z., Wang, L., Huang, H. and Fang, J.* (2019) PPCP degradation and DBP formation in the solar/free chlorine system: Effects of pH and dissolved oxygen. Water Research 150, 77-85.
  18. Hua Z., Kong X., Hou S., Zou S., Xu X., Huang H., Fang J.* (2019) DBP alteration from NOM and model compounds after UV/persulfate treatment with post chlorination. Water Research 158, 237-245.
  19. Guo K., Zhang J., Li A., Xie R., Liang Z., Wang A., Ling L., Li X., Li C., Fang J.* (2018) Ultraviolet irradiation of permanganate enhanced the oxidation of micropollutants by producing HO• and reactive manganese species. Environmental Science & Technology Letters. 5, 750-756. (ACS Editors’ Choice, cover article)
  20. Hou S., Ling L., Dionysiou D.D., Wang Y., Huang J., Guo K., Li X., Fang J.* (2018) Chlorate formation mechanism in the presence of sulfate radical, chloride, bromide and natural organic matter. Environmental Science & Technology 52(11), 6317-6325.
  21. Guo K., Wu Z., Yan S., Yao B., Song W., Hua Z., Zhang X., Kong X., Li X., Fang J.* (2018) Comparison of the UV/chlorine and UV/H2O2 processes in the degradation of PPCPs in simulated drinking water and wastewater: Kinetics, radical mechanism and energy requirements. Water Research 147, 184-194.
  22. Guo, K., Wu, Z., Shang, C., Yao, B., Hou, S., Yang, X., Song, W.* and Fang, J.* (2017) Radical chemistry and structural relationships of PPCP degradation by UV/chlorine treatment in simulated drinking water. Environmental Science & Technology 51 (18), 10431–10439. 2017-9-19
  23. Wu Z., Guo K., Fang J.*, Yang X., Xiao H., Hou S., Kong X., Shang C., Yang X., Meng F., Chen L. (2017) Factors affecting the roles of reactive species in the degradation of micropollutants by the UV/chlorine process. Water Research 126, 351-360.
  24. Wu Z., Fang J.*, Xiang Y., Shang C., Li X., Meng F., Yang X. (2016) Roles of reactive chlorine species in trimethoprim degradation in the UV/chlorine process: Kinetics and transformation pathways. Water Research 104, 272-282.
  25. Xiang Y., Fang J.*, Shang C. (2016) Kinetics and pathways of ibuprofen degradation by the UV/chlorine advanced oxidation process. Water Research 90, 301-308.
  26. Li Z., Chen Z., Xiang Y., Ling L., Fang J.*, Shang C.*, Dionysiou, D.D. (2015) Bromate formation in bromide-containing water through the cobalt-mediated activation of peroxymonosulfate. Water Research 83, 132-140.
  27. Fang J.*, Fu Y., Shang C.* (2014) The roles of reactive species in micropollutant degradation in the UV/free chlorine system. Environmental Science & Technology 48(3), 1859-1868.
  28. Fang J., Shang C. (2012) Bromate formation from bromide oxidation by the UV/persulfate process. Environmental Science & Technology 46(16), 8976-8983.
  29. Fang J., Yang X., Ma J., Shang C., Zhao Q. (2010) Characterization of algal organic matter and formation of DBPs from chlor(am)ination. Water Research 44(20), 5897-5906.
  30. Fang J., Ma J., Yang X., Shang C. (2010) Formation of carbonaceous and nitrogenous disinfection by-products from the chlorination of Microcystis aeruginosa. Water Research 44(6), 1934-1940.

 

发明专利 

  1. 方晶云等,一种强化零价铁除砷的水处理方法. 国家发明专利,ZL 2013 1 0315731.0
  2. 方晶云等,一种零价铁-铜双金属活化过硫酸盐的水处理方法. 国家发明专利, 201510635587.8.
  3. 方晶云等,一种零价铁-镍双金属活化过硫酸盐的水处理方法. 国家发明专利, 201510635779.9.
  4. 方晶云,商启. 一种紫外光和自由氯联用去除水中微污染物的方法. 国家发明专利,CN103523900A, 2014

 

学生培养

  • 魏文瑞,2019年度全国高校环境类专业本科生优秀毕业设计(论文)
  • 中山大学校级优秀本科毕业论文:9篇
  • 郭恺恒,广东省优秀学生(研究生阶段)、“钱易环境奖”一等奖、高廷耀“青年博士杰出人才”、“奥加诺奖学金”一等奖、中山大学2018大学生年度人物提名奖、4th IWA conference of Science Summit on Urban Water – Doctoral Forum最佳口头报告奖(2018年)、国家奖学金(2017年、2018年)
  • 吴梓昊,第十四届全国水处理化学大会优秀口头报告奖(2018年)、中国环境科学会年会优秀论文二等奖(2015年)、国家奖学金(2017年)
  • 王安娜,国际水协会亚太会议(IWA-ASPIRE)优秀墙报奖入围奖(2019年)