唐晨柳

时间:2022-04-29阅读次数:3959

唐晨柳 见习副教授  硕士生导师

电子邮箱:tangchenliu@buct.edu.cn

办公地址:北京市朝阳区北三环东路15号北京化工大学综合楼624

个人经历                                                                 

北京化工大学环境工程讲师2023.11-至今

北京化工大学环境工程师资博士后 2021.12-2023.10

同济大学环境科学与工程硕博连读2015.09-2021.10

湖南大学环境科学本科2011.09-2015.06

科研项目                                                                 

国家自然科学基金青年项目 (No: 52200184)  30

2023.01-2025.12

中国博士后科学基金面上资助项目 (No: 2022M720381)  8

2022.12-2023.12

企业委托项目(NoH2023060530

2023.11-2024.11

中央高校基本科研业务费(自科)-自由探索 (No. ZY2202)  6.5

2022.03-2022.12

招生专业及研究方向                                                       

招生专业:环境科学与工程、资源与环境

研究方向:水中新污染物控制技术、环境功能纳米材料

招生需求

欢迎勤奋好学、具有良好沟通能力和合作精神的同学pick我。

学术成就                                                                 

长期从事铁基纳米材料在典型环境污染物控制方面的研究,主要围绕新型零价铁基纳米材料的构建及其在水体、土壤中重金属和新污染物(微塑料等)控制方面的理论与应用研究。近年来,已发表相关 SCI论文18,其中以第一作者或通讯作者在 Environmental Science & Technology, Environmental Science: Nano, Environmental Science & Technology Letters, Chemical Engineering Journal等环境权威期刊上发表论文10

部分代表性论文:

[1] Tang, C. L.; Ling, L.*; Zhang, W. X. Visualizing Trace Pollutants in Solids at Nanoscale via Electron Tomography, Environmental Science & Technology, 2021, 55, 11533-11537. (Cover Paper)

[2] Zhang, Y. F.; Dong, Z. Q.; Deng, Z. L.; Shi, S. Y.; Tang, C. L.*; Hu, X. Iron “Nano-Fishnet” for Rapid Removal and Surface Clean-up of Micro/nanoplastics from Seawater, Environmental Science: Nano, 2023, 10, 2566-2577.

[3] Tang, C. L.; Ling, L.*; Zhang, W. X. Pb(II) Deposition-Reduction-Growth onto Iron Nanoparticles Induced by Graphitic Carbon Nitride, Chemical Engineering Journal, 2020, 387, 123088.

[4] Xie, L. H.; Chen, Q. J.; Liu, Y. Y.; Ma, Q. Y.; Zhang, J. L.; Tang, C. L.*; Duan, G. L.; Lin, A. J.; Zhang, T. T.; Li, S. Y.* Enhanced Remediation of Cr(VI)-contaminated Soil by Modified Zero-valent Iron with Oxalic Acid on Biochar, Science of the Total Environment, 2023, 905, 167399.

[5] Xie, T. R.; Wang, L. W.; Wang, H. X.; Cao, C.; Tang, C. L.*; Hu, X.* In-situ Electrodeposition of Co/Ce-MOF-derived Carbon Composites as Anode for Electrochemical Degradation of Ceftazidime, Separation and Purification Technology, 2024, 330, 125231.

[6] Tang, C. L. *; Wang X. Y.; Zhang Y. F.; Liu, N.; Hu, X. Corrosion behaviors and kinetics of nanoscale zero-valent iron in water: A review, Journal of Environmental Sciences, 2024, 135, 391-406.

[7] Ling, L.; Tang, C. L.; Zhang, W. X.* Visualization of Silver Nanoparticle Formation on Nanoscale Zero-Valent Iron, Environmental Science & Technology Letters, 2018, 5, 520-525. (Cover Paper)

[8] Tang, C. L.; Long, Z. C.; Wang, Y. D.; Ma, D. Z.; Zhu, X. B.* Sulfate Decelerated Ferrous Ion-Activated Persulfate Oxidation of Azo Dye Reactive Brilliant Red: Influence Factors, Mechanisms, and Control Methods, Catalysts, 2022, 12, 1207

[9] Wang, H. X.; Tang, C. L.; Wang, L. W.; Sun, Z. R.; Hu, X.* MOF-derived Co/Fe@NPC-500 with large amounts of low-valent metals as an electro-Fenton cathode for efficient degradation of ceftazidime, Applied Catalysis B: Environmental, 2023, 333, 122755

[10] Wang, L. W.; Tang, C. L.; Huang, P. F.; Hu, X.*; Sun, Z. R. Efficient degradation of ceftazidime in heterogeneous electro-Fenton process with Fe/Cu bimetal MOF-derived nitrogen-doped cathode, Journal of Alloys and Compounds, 2023, 945, 169263

[11] Guo, Y. J.; Tang, C. L.; Cao, C.; Hu, X.* N-doped carbon-based catalysts in situ generation hydrogen peroxide via 2-electron oxygen reduction reaction for degradation of organic contaminants in heterogeneous electro-Fenton process: A mini review, Surfaces and Interfaces, 2023, 38, 102879

[12] Zhang, N. Z.; Tang, C. L.; Bi W. X.; Sun, Z. R.; Hu, X.* Effective adsorptive removal of sulfamethoxazole (SMX) from aqueous solution by ZIF-8 derived adsorbent ZC-0.5, Environmental Science and Pollution Research, 2023, 30, 60704–60716

[13] Su, C. X.; Jia, M. H.; Xue X. F.; Tang, C. L.; Li L. Y.; Hu, X.* Core-shell magnetic CFO@COF composites toward peroxymonosulfate activation for degradation of sulfamethoxazole from aqueous solution: A comparative study and mechanistic consideration, Chemosphere, 2023, 311, 137159