一、基本情况

姓名：顾雯雯

职称：讲师

院系：皇冠新体育

联系方式：gww0813@outlook.com

办公地址：北京市昌平区回龙观北农路2号主G-623

二、教育及工作履历

2015-2021年于皇冠新体育皇冠新体育硕博连读，2021年6月获得博士学位，毕业后留校从事新讲师博士后工作，曾获国家奖学金、皇冠新体育优秀博士论文、北京市优秀毕业生等。

三、研究方向

（1）电化学水污染控制；

（2）环境功能材料的理性设计和可控制备；

（3）环境中污染物的生物效应与毒性机理研究；

（4）计算化学（第一性原理、分子动力学模拟和机器学习）。

四、主持和参与的项目

中央高校基本科研业务费专项资金面上项目，降解氯代有机物催化阴极设计及脱氯机理研究，2022/01-2023/12，在研，主持；

国家自然科学基金面上项目，多场诱导固体氧化物电解池阴极微观结构演变机理及能质协同调控研究，2023/01-2026/12，在研，参与。

五、学术成果

近年来，主要从事环境功能材料、环境友好型替代品的理性设计、可控制备和环境中新污染物去除等方面的工作，目前发表并检索SCI论文22篇，其中以第一作者及通讯作者发表并检索SCI论文14篇（中科院TOP期刊9篇），与第一作者同等贡献4篇（中科院TOP期刊2篇）。部分代表性成果如下：

[1] Gu Wenwen, Zhao Yuanyuan., Li Qing., Li Yu. Plant-microorganism combined remediation of polychlorinated naphthalenes contaminated soils based on molecular directed transformation and taguchi experimental design-assisted dynamics simulation, Journal of Hazardous Materials, 396 (2020) 122753.

[2] Gu Wenwen, Li Qing, Li Yu. Environment-friendly PCN derivatives design and environmental behavior simulation based on multi-activity 3D-QSAR model and molecular dynamics, Journal of Hazardous Materials, 393 (2020) 122339.

[3] Gu Wenwen, Zhao Yuanyuan, Li Qing, Li Yu. Environmentally friendly polychlorinated naphthalenes (PCNs) derivatives designed using 3D-QSAR and screened using molecular docking, density functional theory and health-based risk assessment, Journal of Hazardous Materials, 2019: 316-327.

[4] Gu Wenwen, Li Xixi, Li Qing, Hou Yilin, Zheng Maosheng, Li Yu. Combined remediation of polychlorinated naphthalene-contaminated soil under multiple scenarios: An integrated method of genetic engineering and environmental remediation technology, Journal of Hazardous Materials, 405 (2021): 124139.

[5] Gu Wenwen, Li Qing, Li Yu. Law and mechanism analysis of biodegradability of polychlorinated naphthalenes based on principal component analysis, QSAR models, molecular docking and molecular dynamics simulation, Chemosphere, 243 (2020) 125427.

[6] Gu Wenwen, Li Xixi, Du Meijin, Ren Zhixing, Li Qing, Li Yu. Identification and regulation of ecotoxicity of polychlorinated naphthalenes to aquatic food chain (Green algae-Daphnia magna-Fish), Aquatic Toxicology, 233 (2021) 105774.

[7] Fu Rui, Li Xinao, Pu Qikun, Gu Wenwen*（通讯）. Efficient and synergistic degradation of fluoroquinolones by bacteria and microalgae: design of environmentally friendly substitutes, risk regulation and mechanism analysis, Journal of Hazardous Materials, 437 (2022) 129384.

[8] Du Meijin, Li Xixi., Pu Qikun, Zhao Yuanyuan, Li Qing, Gu Wenwen*（通讯）. In-silico study of reducing human health risk of POP residues' direct (from tea) or indirect exposure (from tea garden soil): improved rhizosphere microbial degradation, toxicity control and mechanism analysis, Ecotoxicology and Environmental Safety, 242 (2022) 113910.

[9] Li Xinao, Hou Yilin, Li Qing, Gu Wenwen*（通讯作者）, Li Yu. Molecular design of high-efficacy and high drug safety Fluoroquinolones suitable for a variety of aerobic biodegradation bacteria, Journal of Environmental Management, 299 (2021) 113628.  

[10] Li Xixi, Gu Wenwen（共一）, Zhang Baiyu, Xin Xiaying, Kang Qiao, Yang Min, Chen Bing. Insights into toxicity of polychlorinated naphthalenes to multiple human endocrine receptors: Mechanism and health risk analysis, Environment International, 165 (2022) 107291.

[11] Zhang Wenhui, Gu Wenwen（共一）, Sun Ruihao, Zhou Mengying, Han Zhenzhen, Li Yu. An adjusted 3D-QSAR model for the combined activity of fluoroquinolones photodegradation and microbial degradation assisted by dynamic simulation and its application in molecular modification, Ecotoxicology and Environmental Safety, 212 (2021) 111973.