张岩岩博士

Yanyan Zhang, Ph.D.

环境有机污染物与降解技术实验室

联系

邮箱: zhangyanyan@westlake.edu.cn

网站: https://environ-chem.lab.westlake.edu.cn/index.htm

张岩岩博士

Yanyan Zhang, Ph.D.

环境有机污染物与降解技术实验室

联系

邮箱: zhangyanyan@westlake.edu.cn

网站: https://environ-chem.lab.westlake.edu.cn/index.htm

“期待西湖的美好未来。”


个人简介

张岩岩,2010年获武汉大学环境科学学士学位;2015年获北京大学环境地理学博士学位;2013-2014年美国康州农业研究所环境化学联合培养博士生;2016-2020年在加拿大麦吉尔大学从事环境工程方向的博士后研究。于20212月全职加入西湖大学,担任工学院助理教授(特聘研究员),建立环境新污染物与降解技术实验室,研究方向为环境化学与环境工程。


学术成果

环境中的微量有机污染物因其毒性、持久性和生物累积性通过污染空气、水体和土壤对人体健康和生态系统造成威胁。张岩岩博士主要致力于结合实验和理论计算的方法研究新污染物的赋存特征和环境过程,并开发和优化降解技术,解析降解机理和反应路径,为环境风险评估、污染控制与修复和可持续发展提供科技支撑。研究方向包括:全/多氟烷基化合物、非靶向识别与高通量靶向测定、量子化学计算、含氟和含氯药物降解、土壤和地下水修复等。目前已在Environmental Science & Technology, The Science of the Total Environment, Environmental Pollution等期刊发表学术论文50余篇。


代表论文

1.Zhang, Y. Y. *; Liu, J.X.; Ghoshal, S.; Moores, A.* Density functional theory calculations decipher complex reaction pathways of 6:2 fluorotelomer sulfonate to perfluoroalkyl carboxylates initiated by hydroxyl radical. Environ. Sci. Technol. 2021. https://doi.org/10.1021/acs.est.1c05549

2.Garcia, A. N.#; Zhang, Y. Y.#; Ghoshal, S.; Feng, He.; O’Carroll, D. Recent advances in sulfidated zerovalent iron for contaminant transformation. Environ. Sci. Technol. 2021, 55, 13, 8464–8483.

3.Zhang, Y. Y.; Ozcer, P.; Ghoshal, S. A Comprehensive assessment on the degradation of C1 and C2 chlorinated hydrocarbons by sulfidated nanoscale zerovalent iron. Water Res. 2021, 201, 117328.

4. Wang, W.; Zhang, Y. Y.*; D. W.; Tao, S. Water-induced release of recalcitrant polycyclic aromatic hydrocarbons from soil organic matter during microwave-assisted solvent extraction. Environ. Pollut. 2021, 284, 117493.

5.Zhang, Y. Y.; Liu, J.X.; Moores, A.; Ghoshal, S. Transformation of 6:2 fluorotelomer sulfonate by cobalt (II) -activated peroxymonosulfate. Environ. Sci. Technol. 2020, 54, 4631−4640.

6. Zhang, Y. Y.; Moores, A.; Liu, J.X.; Ghoshal, S. New insights into the degradation mechanism of perfluorooctanoic acid by persulfate from density functional theory and kinetics data. Environ. Sci. Technol. 2019, 53, 8672−8681.

7.Zhang, Y.Y.; Zhi, Y.; Liu, J.X.; Ghoshal, S. Sorption of perfluoroalkyl acids to fresh and aged nanoscale zerovalent iron particles. Environ. Sci. Technol. 2018, 52, 63006308.

8.Zhang, Y.Y.; Pignatello, J. J.; Tao, S. Bioaccessibility of PAHs and PAH derivatives in a fuel soot assessed by an in vitro digestive model with absorptive sink: Effects of aging the soot in a soil-water mixture. Sci. Total Envrion. 2018, 615, 169176.

9. Zhang, Y.Y.; Pignatello, J. J.; Tao, S. Bioaccessibility of nitro-and oxy-PAHs in fuel soot assessed by an in vitro digestive model with absorptive sink. Environ. Pollut. 2016, 218, 901908.

10. Zhang, Y.Y.; Dong, S.; Wang, H.; Tao, S. Kiyama, R. Biological impact of environmental polycyclic aromatic hydrocarbons (ePAHs) as endocrine disruptors. Environ. Pollut. 2016, 213, 809824.

11.Zhang, Y.Y.; Pignatello, J. J.; Tao, S.; Xing, B. S. Bioaccessibility of PAHs in fuel soot assessed by an in vitro digestive model with absorptive sink: Effect of food ingestion. Environ. Sci. Technol. 2015, 49 (24), 1464114648.

12. Zhang, Y.Y.; Pignatello, J. J.; Tao, S.; Xing, B. S. Bioacessibility of PAHs in fuel soot assessed by an in vitro digestive model: Effect of including an absorptive sink. Environ. Sci. Technol. 2015, 49, (6), 39053912.

13. Zhang, Y.Y.; Ding, J.; Shen, G.; Zhong, J.; Wang, C.; Wei, S.; Chen, C.; Chen, Y.; Lu, Y.; Shen, H. Dietary and inhalation exposure to polycyclic aromatic hydrocarbons and urinary excretion of monohydroxy metabolitesA controlled case study in Beijing, China. Environ. Pollut. 2014, 184, 515522.

14. Zhang, Y.Y.; Lin, N.; Su, S.; Shen, G.; Chen, Y.; Yang, C.; Li, W.; Shen, H.; Huang, Y.; Chen, H. Freeze drying reduces the extractability of organochlorine pesticides in fish muscle tissue by microwave-assisted method. Environ. Pollut. 2014, 191, 250252.


谷歌学术主页https://scholar.google.ca/citations?hl=en&user=PNVFltwAAAAJ


联系方式

电子邮箱:zhangyanyan@westlake.edu.cn

网站: https://environ-chem.lab.westlake.edu.cn/index.htm

本课题组拟长期开展新污染物环境行为与降解机制研究,主要研究方向包括但不限于:

(1)   计算化学(DFT):污染物反应机制及界面-污染物作用机制

(2)   新污染物非靶向识别与高通量测定

(3)   /多氟烷基化合物转化行为与降解机理

(4)   含氟、含氯污染物的均相、非均相和微生物降解研究

课题组长期招聘博士研究生博士后,有意申请者请发送电子邮件至zhangyanyan@westlake.edu.cn。欢迎具有环境化学、计算化学、高分辨质谱分析、高级氧化、高级还原、微生物降解、催化合成等背景的青年学者加入我们。

博士研究生采用西湖大学与复旦大学或者浙江大学联合培养模式(二选一),通过申请考核制录取,每年三次,分别于三月份、八月份和十一月份启动。

有意申请者请关注西湖大学招生主页:https://www.westlake.edu.cn/admissions_aid/graduate/