姓名：沈天瑶

性别：女

籍贯：河北省衡水市

联系电话：15049751880

E-Mail：tyshen211@outlook.com

职称/职务：讲师/特聘副教授

通讯地址：辽宁省本溪市经济开发区红柳路85号

办公地点：制药工程学院328室

教育经历： 2020/09-2024/09，哈尔滨工业大学，环境科学与工程，工学博士；2018/09-2020/09，哈尔滨工业大学，环境工程，工程硕士；2014/09-2018/06，沈阳药科大学，环境科学，理学学士

工作经历： 2024/11-至今，沈阳药科大学，讲师/特聘副教授

学科/研究方向：环境科学与工程学科

研究方向一：环境新污染物治理；

研究方向二：环境功能材料开发；

研究方向三：水处理高级氧化技术。

科研/获奖情况：

获奖情况：第17届全国环境博士生学术会议获海报展示优秀奖，2019年获硕士研究生国家奖学金；2023年获博士研究生国家奖学金；2023年获黑龙江省三好学生

教学/指导研究生情况： 主讲本科生的环境法概论、环境科学前沿（水处理技术部分）。

发表论文/出版著作：

代表性论文：以第一和通讯作者发表SCI论文，累计影响因子124.7，其中影响因子大于20的高水平论文2篇，中科院分区一区高水平论文7篇，2篇ESI高被引论文.（^*为通讯作者，¹为共同第一作者）。

1. T. Shen, X. Wang, J. Li, P. Xu, C. Yang, P. Wang^*, G. Zhang^*, Introduction of oxygen vacancy to Bi₂Mn₄O₁₀ supported by nickel foam for ¹O₂ dominated metronidazole degradation under dielectric barrier discharge plasma, Applied Catalysis B: Environmental, 2023, 328: 122518（中科院一区，IF₂₀₂₃: 22.1）

2. T. Shen, X. Wang, J. Li, C. Yang, P. Xu, H. Chai, P. Wang^*, G. Zhang^*, Layered double oxide/copper foam actuates dielectric barrier discharge plasma via electron transport: Exploring the reactive species evolution and diuron disassembly routes. Applied Catalysis B: Environmental, 2023, 336: 122950（中科院一区，IF₂₀₂₃: 22.1）

3. T. Shen, X. Wang, J. Li, C. Yang, P. Xu, H. Chai, P. Wang^*, G. Zhang^*, Construction of 3D ternary layered double hydroxides on nickel foam for enhancing dielectric barrier discharge plasma to degrade DUR: Performance, mechanism and energy efficiency, Chemical Engineering Journal, 2023, 455: 140790（中科院一区，IF₂₀₂₃: 13.3）

4. T. Shen, Y. Yang, H. Yu, P. Wang*, P. Xu, J. Qu, G. Zhang^*. Enhancement mechanism of the DBDP self-Fenton-like system by lightweight fly ash ceramsite: Pore-making and electron transfer with CoFe-LDO, Chemical Engineering Journal, 2024, 488: 151126 (ESI高被引论文) （中科院一区，IF₂₀₂₃: 13.3）

5. T. Shen, P. Wang, F. Shi, P. Xu, G. Zhang^*, Metal foam-based functional materials application in advanced oxidation and reduction processes for water remediation: Design, Mechanisms, and Prospects, Chemical Engineering Journal, 2024, 500: 156825. （中科院一区，IF₂₀₂₃: 13.3）

6. T. Shen, K. Tian, M. Cao, L. Li, F. Shi, J. Qu, Q. Zheng, G. Zhang^*, Application of nickel foam supported Cu–MnO₂ in microwave enhanced Fenton-like process for p-nitrophenol removal: Degradation, synergy and mechanism insight, Journal of Cleaner Production, 2023, 397: 136442. (ESI高被引论文) （中科院一区，IF₂₀₂₃: 11.1）

7. T. Shen, X. Wang, P. Xu, C. Yang, J. Li, P. Wang^*, G. Zhang^*, Effect of dielectric barrier discharge plasma on persulfate activation for rapid degradation of atrazine: Optimization, mechanism and energy consumption, Environmental Research, 2022, 212(pt. B): 113287（中科院二区，IF₂₀₂₂: 8.3）

8. T. Shen¹, P. Wang¹, L. Hu, Q. Hu, X. Wang, G. Zhang^*, Adsorption of 4-chlorophenol by wheat straw biochar and its regeneration with persulfate under microwave irradiation, Journal of Environmental Chemical Engineering, 2021, 9: 105353（中科院二区，IF₂₀₂₁: 7.9）

9. F. Shi¹, T. Shen¹, M. Cao, B. Yin, G. Li, X. Zhang, Q. Zheng, Q. Chen, G. Zhang^*, In situ constructed Bi₅O₇I/NiO-NF heterojunction on 3D nickel foam for photocatalytic sulfamerazine degradation: Structure-performance, application, and mechanism, Chemical Engineering Journal, 2024, 497: 154461（中科院一区，IF₂₀₂₃: 13.3）

10. K. Tian¹, T. Shen¹, P. Xu, F. Shi, M. Cao, G. Zhang, Q. Zheng, G. Zhang^*, Exploring the mechanism of norfloxacin removal and active species evolution by coupling persulfate activation with biochar hybridized Fe₃O₄ composites. Chemosphere, 2024, 347: 140666.（中科院二区，IF₂₀₂₃: 8.1）

11. Y. Yang, H. Yu, T. Shen*, N. Wang, P. Wang, Critical review of La(III)-based absorbents toward phosphate adsorption from aqueous solutions: Mechanisms, adsorbent design, and prospects, Journal of Environmental Chemical Engineering, 2024, 12: 112571. (中科院2区 IF₂₀₂₃ = 7.4)

12. 沈天瑶，杨怿，于海鹤，徐鹏，张广山^*，王鹏^*. CoFe-LDH/泡沫铜的制备及催化介质阻挡放电等离子体降解水中敌草隆性能与机制. 应用化学. 2024, 41: 243-255 (CSCD收录，封面论文)