个人简介

教育背景：

2011.09–2017.06     美国俄勒冈州立大学(Oregon State University) 化学，生物与环境工程学院，博士

2007.09–2011.07      中南民族大学化学与材料科学学院，学士

工作经历：

2019.09至今    暨南大学环境与气候学院，副教授

2018.01–2019.08    美威斯康星大学-麦迪逊校区(University of Wisconsin-Madison) 土木与环境工程系，博士后

2017.06–2017.12    美国俄勒冈生物科学协会(Oregon Bioscience Association)，研究助理

2012.04–2017.06    美国俄勒冈州立大学 (Oregon State University) 化学，生物与环境工程学院，助研

2013.09–2014.06     美国俄勒冈州立大学 (Oregon State University) 化学，生物与环境工程学院，助教

本人研究从全生命周期视角，分析新兴科技的环境影响及新污染物的生态风险，为可持续发展和环境管理提供有效方案（http://yourlab.com.cn/PicDetail.aspx?ID=96）。目前任SETAC旗下SCI期刊Integrated Environmental Assessment and Management副主编，广东省环境污染与健康重点实验室副主任。

研究方向

1. 污染物全生命周期管控

2. 环境系统工程

3. 区域低碳可持续发展

课程教学

1. 环境化学（本科）

2. 环境化学实验（本科）

3. 环境问题（本科）

4. 环境风险评估（研究生）

5. 生态风险评价（研究生）

学术论著

1.Zhou Z, Wu F*, Tong Y, Zhang S, Li L, Cheng F, Zhang B, Zeng X, Yu Z, You J. Toxicity and chemical characterization of shale gas wastewater discharged to the receiving water: Evidence from toxicity identification evaluation. Science of The Total Environment 2024, 912, 169510.

2.Wu F, Zhou Z, Zhang S, Cheng F, Tong Y, Li L, Zhang B, Zeng X, Li H, Wang D, Yu Z. Toxicity identification evaluation for hydraulic fracturing flowback and produced water during shale gas exploitation in China: Evidence from tissue residues and gene expression. Water Research 2023, 241, 120170.

3.Wu F*, Cheng K, Cheng F, You J*. Life cycle thinking supports 21st‐century new pollutant and chemical management. Integrated Environmental Assessment and Management 2023, 19, 859-60.

4.陈科言，吴凡*，李亮，游静.中美页岩气开采返排废水中关键有机污染物的差异化特征. [J/OL]. 天然气地球科学 2023, https://link.cnki.net/urlid/62.1177.TE.20231024.1100.002.

5.Cheng F, Huang J, Li H, Escher BI, Tong Y, König M, Wang D, Wu F, Yu Z, Brooks BW and You J. Text Mining-Based Suspect Screening for Aquatic Risk Assessment in the Big Data Era: Event-Driven Taxonomy Links Chemical Exposures and Hazards. Environmental Science & Technology Letters 2023, 10, 1004-1010.

6.Cao Y, Li L, Zhang Y, Liu Z, Wang L, Wu F*, You J. Co-products recovery does not necessarily mitigate environmental and economic tradeoffs in lithium-ion battery recycling. Resources, Conservation and Recycling 2023, 188, 106689.

7.Cheng F, Zhou Z, Wu F, Li H, Yu Z, Zeng X, You J*. Data-Driven Endpoint Selection in Data-Poor Scenarios: Bioassay Design for Shale Gas Flowback and Produced Waters. Environmental Science & Technology Letters 2022, 9(12), 1074-1080.

8.Tian H, Wang L, Du Y*, Sun Y, Wu F, Ye H, Chen S, Guo L, Zhang TC. One-step natural pyrite-assisted mechanochemical detoxification of Cr (VI) in soda ash Chromite Ore Processing Residue: Effectiveness, mechanisms, and life cycle analysis. Journal of Cleaner Production 2022, 380, 134958.

9.Zhang S, Ke M, Li L, Chen K, Hicks A, Wu F*, You J. UV‐dependent freshwater effect factor of nanoscale titanium dioxide for future life cycle assessment application. Integrated Environmental Assessment and Management 2022.

10.Liu P, Zhang L, Li H*, Wei Y, Wu F, You J. Reduced concentrations and toxicity of sediment-associated pesticides from vegetable planting field to surrounding waterways: Impacts of chemical properties and intrinsic toxicity. Journal of Hazardous Materials 2022, 436, 129292.

11.Li L, Wu F*, Cao Y, Cheng F, Wang D, Li H, Yu Z, You J. Sustainable development index of shale gas exploitation in China, the UK, and the US. Environmental Science and Ecotechnology 2022, 100202.

12.Xiong S, Zhao J, Lun B, Chen F, Gong Y, Wu F, Wu J, Huang LZ, Yin W*, Dionysiou DD. Reconsidering the use of ferrous hydroxide for remediation of chlorinated ethylene contaminated groundwater: ultra-fast trichloroethene dechlorination by ferrous hydroxide and bone char mixture. Chemical Engineering Journal 2022, 438, 135516.

13.Wu F, Li L, Crandon L, Cao Y, Cheng F, Hicks A, Zeng EY, You J*. Environmental hotspots and greenhouse gas reduction potential for different lithium-ion battery recovery strategies. Journal of Cleaner Production 2022, 339, 130697.

14.An J, Wu F *, Wang D;, You J. Estimated material metabolism and life cycle greenhouse gas emission of major plastics in China: A commercial sector-scale perspective. Resources, Conservation and Recycling 2022, 180, 106161.

15.Ning Q, Wang D*, An J, Ding Q, Huang Z, Zou Y, Wu F, You J. Combined effects of nanosized polystyrene and erythromycin on bacterial growth and resistance mutations in Escherichia coli. Journal of Hazardous Materials 2022, 422, 126858.

16.Zhang Y, Shah P, Wu F, Liu P, You J, Goss G*. Potentiation of lethal and sub-lethal effects of benzophenone and oxybenzone by UV light in zebrafish embryos. Aquatic Toxicology 2021, 235, 105835.

17.Liu P, Wu F*, Li H, You J. The neonicotinoid alterna-tive sulfoxaflor causes chronic toxicity and impairs mitochondrial energy production in Chironomus kiinensis, Aquatic Toxicology 2021, 235, 105822

18.Temizel-Sekeryan S, Wu F, Hicks AL*. Global scale life cycle environmental impacts of single-and multi-walled carbon nanotube synthesis processes. The International Journal of Life Cycle Assessment 2021, 1-17.

19.Temizel‐Sekeryan S, Wu F, Hicks AL*. Life Cycle Assessment of Struvite Precipitation from Anaerobically Digested Dairy Manure: A Wisconsin Perspective. Integrated Environmental Assessment and Management 2021, 17(1), 292-304.

20.Wu F, Zhou Z, Temizel-Sekeryan S, Ghamkhar R, Hicks AL*. Assessing the environmental impact and payback of carbon nanotube supported CO2 capture technologies using LCA methodology. Journal of Cleaner Production 2020, 270, 122465.

21.Wu F, Seib M, Mauel S, Klinzing S, Hicks AL*. A citizen science approach estimating titanium dioxide released from personal care products. PloS ONE 2020, 15(7), e0235988.

22.Wu F, Harper BJ, Crandon LE, Harper SL*. Assessment of Cu and CuO nanoparticle ecological responses using laboratory small-scale microcosms. Environmental Science: Nano 2020, 7, 105-115.

23.Bai Y, Wu F, Gong Y*. Oxidation and adsorption of antimony (iii) from surface water using novel Al2O3-supported Fe–Mn binary oxide nanoparticles: effectiveness, dynamic quantitative mechanisms, and life cycle analysis. Environmental Science: Nano 2020, 7(10), 3047-3061.

24.Ghamkhar R, Hartleb C, Wu F, Hicks A*. Life cycle assessment of a cold weather aquaponic food production system. Journal of Cleaner Production 2020, 244, 118767.

25.Wu F, Hicks AL*. Estimating human exposure to titanium dioxide from personal care products through a social survey approach. Integrated Environmental Assessment and Management 2020, 16(1), 10-16.

26.Wu F *, Zhou Z, Hicks AL. Life cycle impact of titanium dioxide nanoparticle synthesis through physical, chemical, and biological routes. Environmental Science & Technology 2019, 53(8), 4078-4087.

27.Wu F, Ghamkhar R, Ashton W, Hicks AL*. Sustainable seafood and vegetable production: aquaponics as a potential opportunity in urban areas. Integrated Environmental Assessment and Management 2019, 15(6), 832-843.

28.Wu F, Harper BJ, Marsh DA, Saha S, Diulus T, Amador JM, Keszler DA, Herman GS, Maddux BL, Harper SL*. Monoalkyl Tin Nano‐Cluster Films Reveal a Low environmental impact under simulated natural conditions. Environmental Toxicology and Chemistry 2019, 38(12), 2651-2658.

29.Wu F, Harper BJ, Harper SL*. Comparative dissolution, uptake, and toxicity of zinc oxide particles in individual aquatic species and mixed populations. Environmental Toxicology and Chemistry 2019, 38(3), 591-602.

30.Denluck L, Wu F, Crandon LE, Harper BJ, Harper SL*. Reactive oxygen species generation is likely a driver of copper-based nanomaterial toxicity. Environmental Science: Nano 2018, 5(6), 1473-1481.

31.Wu F, Bortvedt A, Harper BJ, Crandon LE, Harper SL*. Uptake and toxicity of CuO nanoparticles to Daphnia magna varies between indirect dietary and direct waterborne exposures. Aquatic Toxicology 2017, 190, 78-86.

32.Wu F, Harper BJ, Harper SL*. Differential dissolution and toxicity of surface functionalized silver nanoparticles in small-scale microcosms: impacts of community complexity. Environmental Science: Nano 2017, 4(2), 359-372.

科研项目

在研项目：

01/2022 – 12/2024     国家自然科学基金青年基金，载药型纳米吡虫啉对水生模式生物的毒性特征及基于累积动力学的毒性影响机制，主持

01/2023 – 12/2025    广东省自然科学基金面上项目，基于动态概率物质流的可降解塑料生命周期碳排放潜力及替代性研究，主持

01/2024 – 12/2025    广州市基础与应用基础研究，耦合动态物质流和风险评价模型的新烟碱类农药生命周期环境影响及替代性研究，主持

01/2023 – 12/2024    暨南大学科协2023年度青年科技人才托举工程项目，主持

01/2020 – 12/2023    国家重点研发计划项目子课题，页岩气开采场地特征污染物筛查与污染防控-页岩气开采过程中特征污染物的识别与筛选，参与

04/2021 – 03/2023    广州市科技计划项目基础与应用基础研究项目，基于生命周期评价的纳米农药毒性及宏观环境影响研究，主持

05/2022 – 12/2023    广东省水利电力勘测设计研究院，抽水储能电站碳收支与可持续性评价方法体系研究（横向），参与

结题项目：

12/2021 – 12/2023     广东省普通高校创新团队项目，自然科学水生态风险评价与管理，参与

10/2020 – 09/2023    广东省区域联合基金，新型纳米吡虫啉杀虫剂在典型水生生物体内的累积与食物链传递影响研究，主持

01/2021 – 12/2021    广东省环科院，合成树脂及可降解塑料的生命周期环境影响分析（横向），主持

04/2021 – 03/2023    武汉工商学院，环创科技股份有限公司，餐厨垃圾处理碳减排方法学可行性研究（横向），主持

09/2020 – 08/2022    中央高校基本科研业务费专项资金，纳米农药的生态毒性效应与机制研究，主持（结题）

01/2018 – 12/2019    NSF #1743891: EAGER: PPER: GOALI: Down the drain - using citizen science to inventory titanium dioxide in personal care products. (PI: Andrea Hicks, University of Wisconsin-Madison)  ，参与（结题）

09/2014 – 08/2017    NSF #14381: Forecasting the environmental fate and ecotoxicity of nanomaterials in aquatic systems. (PI: Stacey Harper, Oregon State University)  ，参与（结题）

研究团队

环境污染与健康团队    

水生态风险评估与管理创新团队（http://yourlab.com.cn/）