教育背景
2010年07月,清华大学环境科学与工程系,工学博士
2006年09 - 12月,意大利威尼斯国际大学,交换学生
2004年07月,清华大学环境科学与工程系,工学学士
工作经历
2015年07月-至今,中国科学院城市环境研究所,研究员,研究组长
2013年03月-2015年06月,耶鲁大学森林与环境学院,Associate Research Scientist
2010年06月-2013年02月,耶鲁大学森林与环境学院,博士后
产业生态系统工程,资源环境管理,低碳循环数智技术,城市代谢与城市可持续发展
期刊编辑:
1) 2016/07-今. Resources, Conservation, and Recycling. 副主编
2) 2016/09-今. Energy, Ecology, and Environment. 副主编.
4) 2019/08-今. Journal of Industrial Ecology. 副主编
5) 2021/01-今. Ecosystem Health and Sustainability. 编辑
学术团体:
2022年-至今,中国生态学学会产业生态专委会,主任委员
2019年-至今,中国稀土学会环境经济与政策专委会,主任委员
2019年-至今,中国自然资源学会,理事
2018年-至今,中国生态学学会,理事
2018年-2020年,国际产业生态学会,理事会成员
2019年-至今,中国管理现代化研究会城市与区域管理专委会,副主任委员
2019年-至今,中国“双法”研究会能源经济与管理研究分会,副秘书长
2018年-至今,中国自然资源学会资源流动与管理研究专业委员会,副主任委员
1. Chen, W.-Q.* Eckelman, M. J.; Sprecher, B.; Chen, W.; and Wang, P.* Interdependence in rare earth element supply between China and the United States helps stabilize global supply chains. One Earth. 2024 7(2): 242-252.
2. Wang, P.; Yang, Y.-Y.; Heidrich, O.; Chen, L.-Y.; Chen, L.-H.*; Fishman, T. and Chen, W.-Q.* Regional rare-earth element supply and demand balanced with circular economy strategies. Nature Geoscience. 2024 17: 94-102.
3. Song, L.-L.; Ewijk, S.; Masanet, E.; Watari, T.; Meng, F.; Cullen, J. M. Cao, Z.* and Chen, W.-Q.* China’s bulk material loops can be closed but deep decarbonization requires demand reduction. Nature Climate Change. 2023, 13: 1136-1143.
4. Cao, Z. and Chen. W.-Q. Circular economy strategies to decarbonize China’s bulk material cycles. Nature Climate Change. 2023, 13, 1030–1031.
5. Chen, W.-Q.* and Graedel, T.E.* In-Use Product Stocks Link Manufactured Capital to Natural Capital. Proceedings of the National Academy of Sciences of the United States of America. 2015, 112 (20): 6265-6270.
6. Wang, P.; Ryberg, M.*; Yang, Y.; Feng, K.-S.; Kara, S.*; Hauschild, M. and Chen, W.-Q.* Efficiency stagnation in global steel production urges joint supply- and demand-side mitigation efforts. Nature Communications. 2021, 12: 2066.
7. Wang, R. R.*; Hertwich, E. G.*; Fishman, T.; Deetman, S.; Behrens, P.; Chen, W.-Q.; De Koning, A.; Xu, M.; Matus, K.; Ward, H.; Tukker, A.; Zimmerman, J. B. The Legacy Environmental Footprints of Manufactured Capital. Proceedings of the National Academy of Sciences of the United States of America. 2023, 120 (24), e2218828120.
8. Wang, H. T.; Feng, K. S; Wang, P.*; Yang, Y. Y.; Sun, L. X.*; Yang, F.; Chen, W.-Q.; Zhang, Y. Y. and Li, J. S.* China’s Electric Vehicle and Climate Ambitions Jeopardized by Surging Critical Material Prices. Nature Communications. 2023, 14: 1246.
9. Chen, C. K.; Li, N.; Qi, J. C.; Wei, J. L. M., and Chen, W.-Q.* Material Flow Analysis of Dysprosium in the United States. Environmental Science & Technology. 2023, 57 (45): 17256-17265.
10. Dai, T.; Liu, Y.-F.; Wang, P.*; Qiu Y.; Mancheri, N.; Chen W.; Liu, J.-X.; Chen, W.-Q.* Wang, H. M. and Wang, A-J.* Unlocking Dysprosium Constraints for China’s 1.5 °C Climate Target. Environmental Science & Technology. 2023, 57 (38): 14113-14126.
11. Nunes, L. M.; Li, G.; Chen, W.-Q.; Meharg, A. A.; O’Connor, P. and Zhu, Y.-G. Embedded Health Risk from Arsenic in Globally Traded Rice. Environmental Science & Technology. 2022, 56 (10): 6415–6425
12. Ma, Z.-J.; Yang, Y.; Chen, W.-Q.*; Wang, P.; Wang, C.; Zhang, C. and Gan, J.-B. Material Flow Patterns of the Global Waste Paper Trade and Potential Impacts of China’s Import Ban. Environmental Science & Technology. 2021, 55 (13): 8492-8501.
13. Wang, W.-J.; Chen, W.-Q.*; Diao, Z.-W.; Ciacci, L.; Pourzahedi, L.; Eckelman, M.-J.; Yang, Y. and Shi, L.* Multidimensional Analyses Reveal Unequal Resource, Economic, and Environmental Gains and Losses among the Global Aluminum Trade Leaders. Environmental Science & Technology. 2021, 55 (10): 7102-7112.
14. Wang, Q.-C.; Wang, P.; Qiu, Yang.; Dai, T; and Chen, W.-Q.* Byproduct Surplus: Lighting the Depreciative Europium in China’s Rare Earth Boom. Environmental Science & Technology. 2020, 276: 124221.
15. Chen, J.-J.; Tang, L.-B.; Chen, W.-Q.; Peaslee, G.-F.; and Jiang, D.-Q.* Flows, Stock, and Emissions of Poly- and Perfluoroalkyl Substances in California Carpet in 2000–2030 under Different Scenarios.Environmental Science & Technology. 2020, 54: 6908-6918.
16. Cao, Z.; O’Sullivan, C.; Tan, J.; Kalvig, P.; Ciacci, L.; Chen, W.-Q.; Kim, J.; and Liu, G.* Resourcing the Fairytale Country with Wind Power: A Dynamic Material Flow Analysis. Environmental Science & Technology. 2019, 53: 11313-11322.
17. Huang, B.-J.*; Zhao, F., Fishman, T., Chen, W.-Q.; Heeren, N.; and Hertwich, E. G. Building Material Use and Associated Environmental Impacts in China 2000-2015. Environmental Science & Technology. 2018, 52(23):14006-14014.
18. Han, J.*; Chen, W.-Q.; Zhang, L.-X.; and Liu, G.* Uncovering the Spatiotemporal Dynamics of Urban Infrastructure Development: A High Spatial Resolution Materials Stock and Flow Analysis. Environmental Science & Technology. 2018, 52(21): 12122-12132.
19. Jiang, D.*; Chen, W.-Q.*; Zeng, X.-L.; and Tang, L. Dynamic Stocks and Flows Analysis of Bisphenol A (BPA) in China: 2000-2014. Environmental Science & Technology. 2018, 52 (6): 3706−3715.
20. Jiang, D.*; Chen, W.-Q.; Liu, W.; and Chertow, M.* Inter-Sectoral Bisphenol A (BPA) Flows in the 2012 Chinese Economy. Environmental Science & Technology. 2017, 51 (15): 8654–8662
21. Shi, Y.-L.; Chen, W.-Q.*; Wu, S.-L.; and Zhu, Y.-G. Anthropogenic Cycles of Arsenic in Mainland China: 1990-2010. Environmental Science & Technology. 2017, 51 (3): 1670-1678.
22. Nuss, P.*; Chen, W.-Q.*; Ohno, H.; and Graedel, T.E. Structural Investigation of Aluminum in the US Economy using Network Analysis. Environmental Science & Technology. 2016, 50 (7): 4091-4101.
23. Ohno, H.*; Nuss, P.; Chen, W.-Q.*; and Graedel, T.E. Deriving the Metal and Alloy Networks of Modern Technology. Environmental Science & Technology. 2016, 50 (7): 4082-4090.
24. Chen, W.-Q.*; Graedel, T.E.; Nuss, P.; and Ohno, H. Building the Material Flow Networks of Aluminum in the 2007 U.S. Economy. Environmental Science & Technology. 2016, 50 (7): 3905-3912.
25. Zeng, X.-L.*; Gong, R.-Y.; Chen, W.-Q.; and Li, J.-H.* Uncovering the Recycling Potential of ‘New’ WEEE in China. Environmental Science & Technology. 2016,50 (3): 1347-1358.
26. Chen, W.-Q.* and Graedel, T.E. Improved Alternatives for Estimating In-Use Material Stocks. Environmental Science & Technology. 2015, 49 (5): 3048–3055.
27. Chen, W.-Q.* and Graedel, T.E. Anthropogenic Cycles of the Elements: A Critical Review. Environmental Science & Technology. 2012, 46 (16): 8674-8586.
28. 吴一丁, 彭子龙, 赖丹, 赵燊, 王路, 陈伟强, 汪鹏*. 稀土产业链全球格局现状、趋势预判及应对战略研究. 中国科学院院刊, 2023, 38(2): 225-264.
29. 陈伟强*, 汪鹏, 钟维琼. 支撑“双碳”目标的关键金属供应挑战与保障对策. 中国科学院院刊, 2022, 37(11): 1587-1585.
30. 陈伟强,刘刚,石磊,王婉君。《铝的物质流分析与生态环境影响研究》,科学出版社,2023,约28万字。
* 代表通讯作者
1) 国家自然科学基金委员会与联合国环境规划署合作研究项目. 基于物质流分析的金属资源效率跨国比较与协同提升对策研究.编号:71961147003. 2020/01-2024/12. 309.60万元.
2) 国家自然科学基金面上项目. 生活源包装塑料废弃物的产生特征、环境影响和消减策略.编号:52070178. 2021/01-2024/12. 68.60万元.
3) 国家自然科学基金面上项目. 关键稀土元素之全球物质流网络的构建与结构演化分析.编号:41671523. 2017/01-2020/12. 71.60万元
4) 中国科学院对外合作重点项目. 城市化的资源环境效应与城市可持续发展对策.编号:132C35KYSB20200004. 2021/01-2023/12. 160万元.
5) 中国科学院前沿科学重点研究项目. 中国铜铁铝城市矿产储量的数字地图绘制.编号:QYZDB-SSW-DQC012. 2016/08-2020/12. 309.60万元
6) 中国科学院A类战略性先导科技专项. 粤港澳大湾区多源固废循环利用技术系统集成及推广应用. “美丽中国生态文明建设科技工程”之项目三“粤港澳大湾区城市群生态建设工程与生态系统智能管理示范”子课题. 编号:XDA23030304. 2019/01-2023/12. 96.20万元
7) 企业委托揭榜挂帅项目. 北方稀土全产业链“十四五”碳达峰碳中和技术路线图. 中国北方稀土(集团)高科技股份有限责任公司. 编号:BFXT-2021-D-00061. 2021/11-2024/06.
8) 企业委托横向咨询项目. 全球碳中和目标下碳基资源循环及全生命周期评估量化模拟研究. 全球能源互联网集团有限公司. 2022/8-2023/6. 编号:SGGEIG00JYJS2200051.
9) 企业委托横向咨询项目. 材料绿色评价体系与产品生态设计方案研究. 施耐德电气(中国)有限公司. 2022/4-2023/3.
