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个人简介       主要研究方向为温室气体控制技术、碳捕集与转化，擅长通过机器学习结合DFT计算开展新型捕集材料设计与机理研究，依据“机理阐明-路径调控-过程模拟”的研究思路，探究CO2及其产物在气-液-固多相界面的迁移、转化与调控机制。2018-2019年前往美国伊利诺伊大学厄巴纳-香槟分校访学（合作导师：Yongqi Lu教授）。目前已在Environmental   Science & Technology等期刊发表SCI论文13篇，其中封面论文1篇，高被引4篇；授权发明专利3件，获第二十四届中国专利优秀奖（排名第2，2023）；担任《Atmosphere》客座编辑；参与中国科技部21世纪议程管理中心《中国碳中和技术发展路线图》编写工作，参与浙江省科技厅《浙江省碳达峰碳中和科技创新行动方案》和技术路线图编制工作。 科研成果 学术奖励1. 第二十四届中国专利优秀奖（排名第2）[2023-7-19]授权专利3. 沈遥, 张士汉, 叶杰旭；一种陀螺仪结构氨基化ZIF‑8及其制备方法；2023-03-31, 中国，ZL202111520188.9.2. 张士汉, 沈遥, 周晓玮, 叶杰旭；一种用于处理烟气中二氧化碳的多级分相工艺方法；2022-06-09，中国，ZL202110772187.7. 1. 张士汉, 沈遥, 蒋辰开；一种处理烟气中二氧化碳的三元双液相吸收剂；2021-11-08，中国，ZL201910323892.1.代表性论文13. Luo,W.; Li, S.; Shen, Y.*; Zhang, S.; Li, W.; Li, S.*, Modulating the coordination environment of Cu sites for highly selective CO2 electroreduction to ethylene. Chem & Bio Engineering, 2024, doi:10.1021/cbe.4c00021. [2024-4-10]12. Shen, Y.; Qian, L.; Xu, Q.; Wang, S.; Chen, Y.; Lu, H.; Zhou, Y.; Ye, J.; Zhao, J.; Gao, X.; Zhang, S.*, N-doped Cu2O with the tunable Cu0 and Cu+ sites for selective CO2 electrochemical reduction to ethylene. Journal of Environmental Sciences, 2025, 150, 246-253. [2024-3-17]11. Shen, Y.; Gong, Y.; Sun, L.; Chen, P.; Zhang, Q.; Ye, J.; Wang, L.; Zhang, S.*,Machine   learning-driven assessment of relationship between activator  properties  in phase change solvent and its absorption performance for CO2 capture. Separation and Purification Technology, 2023, 309, 123092. [2023-3-15]（ESI高被引论文)10. Shen, Y.;  Liu, F.; Wang, X.; Shao, P.; He, Z.; Zhang, S.*; Chen, L.; Li, S.; Li,  W.*; Wang, L.; Hou, Y., A pore matching amine-functionalized strategy  for efficient CO2 physisorption with low energy penalty. Chemical Engineering Journal,2022, 432, 134403. [2022-3-15]9. Yu, Y.; Shen, Y.*;  Zhou, X.; Liu, F.; Zhang, S.; Lu, S.; Ye, J.; Li, S.; Chen, J.; Li, W.,  Relationship between tertiary amine’s physical property and biphasic  solvent’s CO2 absorption performance: Quantum calculation and experimental demonstration. Chemical Engineering Journal, 2022, 428, 131241. [2022-1-15]8. Shen, Y.; Chen, H.; Wang, J.; Zhang, S.*; Jiang, C.; Ye, J.; Wang, L.; Chen, J., Two-stage interaction performance of CO2 absorption into biphasic solvents: Mechanism analysis, quantum calculation and energy consumption. Applied Energy, 2020, 260, 114343. [2020-2-15] （ESI高被引论文） 7. Shen, Y.; Jiang, C.; Zhang, S.*; Chen, J.; Wang, L.; Chen, J., Biphasic solvent for CO2 capture: Amine property-performance and heat duty relationship. Applied Energy, 2018, 230, 726-733. [2018-11-15]6. Zhou, X.#; Shen, Y.#; Liu, F.; Ye, J.; Wang, X.; Zhao, J.; Zhang, S.*; Wang, L.; Li, S.;  Chen, J., A novel dual-stage phase separation process for CO2 absorption into a biphasic solvent with low energy penalty. Environmental Science & Technology, 2021, 55, 15313–15322.（2021年第55期封面论文）5. Mei, J.#; Shen, Y.#;  Li, Y.; Zhang, S.; Shen, Y.; Li, W.; Cheng, Z.; Zhao, J.*; Chen, J.,  Combined experimental and theoretical study of o-xylene elimination on  Fe-Mn oxides catalysts. Chemosphere, 2022, 292, 133442.4. Pang, K.#; Liu, X.#; Liu, Y.*; Chen, Y.; Xu, Z.*; Shen, Y.*; Gao, C.*, Highly conductive graphene film with high-temperature stability for electromagnetic interference shielding. Carbon, 2021, 179, 202-208.3. Liu, F.; Shen, Y.;  Shen, L.; Sun, C.; Chen, L.; Wang, Q.; Li, S.; Li, W.*, Novel  amino-functionalized ionic liquid/organic solvent with low viscosity for  CO2 capture. Environmental Science & Technology, 2020, 54, 3520-3529.2. Zhang, S.; Shen, Y.; Wang, L.; Chen, J.; Lu, Y.*, Phase change solvents for post-combustion CO2 capture: Principle, advances, and challenges. Applied Energy, 2019, 239, 876-897.（ESI高被引论文，2020年度APEN高被引论文）1. Zhang, S.*; Shen, Y.; Shao, P.; Chen, J.; Wang, L., Kinetics, thermodynamics, and mechanism of a novel biphasic solvent for CO2 capture from flue gas. Environmental Science & Technology, 2018, 52, 3660-3668.（ESI高被引论文） 社会服务 学术兼职1. 《Atmoshpere》客座编辑。负责特刊Advances in Source Tracing and the Control of Ozone and Its Precursors（投稿链接：https://www.mdpi.com/journal/atmosphere/special_issues/1NXB690H0U）其他奖励2. 优秀学术论文二等奖，中国可持续发展研究会气候变化工作委员会2023年度学术年会暨第二届中国碳捕集利用与封存（CCUS）大会。1. 优秀学术论文二等奖，中国可持续发展研究会气候变化工作委员会2022年度学术年会暨第一届中国碳捕集利用与封存（CCUS）大会。