教育背景

2012.09-2016.06    双色球，环境科学专业，理学学士

2016.09-2022.04    清华大学核能与新能源技术研究院，环境科学与工程专业，工学博士

工作经历

2022.08-                 双色球，讲师

环境科学与工程概论

环境工程原理

环境材料进展

[32] Liao, M.J., Zheng, Z.L., Jiang, H.Y., Ma, M.Y., Wang, L.M., Wang, Y., Zhuang, S.T.* (2024) MXenes as emerging adsorbents for removal of environmental pollutants. Science of the Total Environment 912，169014

[31] Zhuang, S.T., Mei Y.C. and Wang, J.L. (2023) Adsorption performance and mechanisms of Co2+ onto carboxyl-functionalized carbon nanotubes. Journal of Cleaner Production 430, 139709.

[30] Zhuang, S.T. and Wang, J.L. (2024) removal from radioactive wastewater by adsorption and membrane technology. Frontiers of Environmental Science & Engineering. 18(3): 38.

[29] Zhuang, S.T. and Wang, J.L. (2023). Efficient adsorptive removal of Co2+ from aquatic solutions using graphene oxide. Environmental Science and Pollution Research. 30, 101433-101444.

[28] Zhuang, S.T. and Wang, J.L. (2023). Interaction between antibiotics and microplastics: Recent advances and perspective. Science of the Total Environment 897, 165414.

[27] Wang, J.L. and Zhuang, S.T. (2022) Chitosan-based materials: Preparation, modification, and application. Journal of Cleaner Production 355, 131825. (高被引+热点）

[26] Zhuang, S.T., Zhu, K.K., Xu, L.J., et al. (2022). Adsorption of Co²⁺ and Sr²⁺ in aqueous solution by a novel fibrous chitosan biosorbent.  Science of the Total Environment 825, 153998.

[25] Zhuang, S.T., Zhu, K., Hu, J., et al. (2022). Selective and effective adsorption of cesium ions by metal hexacyanoferrates (MHCF, M = Cu, Co, Ni) modified chitosan fibrous biosorbent.  Science of the Total Environment 835, 155575.

[24] Zhuang,S.T., Zhu, K.K. and Wang, J.L.* (2021). Fibrous chitosan/cellulose composite as an efficient adsorbent for Co(Ⅱ) removal.  Journal of Cleaner Production 285, 124911. (高被引文章)

[23] Zhuang, S.T., and Wang, J.L.* (2021). Adsorptive removal of pharmaceutical pollutants by defective metal organic framework UiO-66: Insight into the contribution of defects.  Chemosphere 281, 130997.

[22] Zhuang, S.T., Zhang, Q. and Wang, J.L.* (2021). Adsorption of Co²⁺ and Sr²⁺ from aqueous solution by chitosan grafted with EDTA.  Journal of Molecular Liquids 325, 115197.

[21] Zhuang, S.T.and Wang, J.L.* (2021). Magnetic COFs as catalyst for Fenton-like degradation of sulfamethazine.  Chemosphere 264, 128561.

[20] Zhuang, S.T., Liu, Y. and Wang, J.L.* (2020). Covalent organic frameworks as efficient adsorbent for sulfamerazine removal from aqueous solution.  Journal of Hazardous Materials 383, 121126. (高被引文章)

[19] Zhuang, S.T., Cheng, R., Liu, Y. and Wang, J.L.* (2020). Magnetic COFs for the adsorptive removal of diclofenac and sulfamethazine from aqueous solution: adsorption kinetics, isotherms study and DFT calculation.  Journal of Hazardous Materials  385, 121596. 

[18] Zhuang, S.T., Zhu, X. and Wang, J.L.* (2020). Adsorptive removal of plasticizer (dimethyl phthalate) and antibiotic (sulfamethazine) from municipal wastewater by magnetic carbon nanotubes.  Journal of Molecular Liquids 319, 114267.

[17] Zhuang, S.T. and Wang, J.L.* (2020). Poly amidoxime functionalized carbon nanotube as an efficient adsorbent for removal of uranium from aqueous solution.  Journal of Molecular Liquids 319, 114288.

[16] Wang, J.L.* and Zhuang, S.T. (2019). Covalent organic frameworks (COFs) for environmental applications.  Coordination Chemistry Reviews 400, 213046. (高被引文章)

[15] Wang, J.L.* and Zhuang, S.T. (2019). Removal of cesium ions from aqueous solutions using various separation technologies.  Reviews in Environmental Science and Bio/Technology 18, 231-269. (高被引文章)

[14] Wang, J.L.*, and Zhuang, S.T. (2019). Extraction and adsorption of U(VI) from aqueous solution using affinity ligand-based technologies: an overview.  Reviews in Environmental Science and Bio/Technology 18, 437-452.

[13] Zhuang, S.T., Cheng, R. and Wang, J.L.* (2019). Adsorption of diclofenac from aqueous solution using UiO-66-type metal-organic frameworks.  Chemical Engineering Journal 359, 354-362.

[12] Zhuang, S.T., Liu, Y. and Wang, J.L.* (2019). Mechanistic insight into the adsorption of diclofenac by MIL-100: Experiments and theoretical calculations.  Environmental Pollution 253, 616-624.

[11] Zhuang, S.T. and Wang, J.L.* (2019). Removal of cesium ions using nickel hexacyanoferrates-loaded bacterial cellulose membrane as an effective adsorbent.  Journal of Molecular Liquids 294, 111682.

[10] Zhuang, S.T. and Wang, J.L.* (2019). Removal of U(VI) from aqueous solution using phosphate functionalized bacterial cellulose as efficient adsorbent.  Radiochimica Acta 107, 459-467.

[9] Zhuang, S.T. and Wang, J.L.* (2019). Removal of cobalt ion from aqueous solution using magnetic graphene oxide/chitosan composite.  Environmental Progress & Sustainable Energy 38, S32-S41.

[8] Wang, J.L.* and Zhuang, S.T. (2019). Cesium separation from radioactive waste by extraction and adsorption based on crown ethers and calixarenes.  Nuclear Engineering and Technology 52, 328-336.

[7] Zhuang, S.T., Cheng, R., Kang, M. and Wang, J.L.* (2018). Kinetic and equilibrium of U(Ⅵ) adsorption onto magnetic amidoxime-functionalized chitosan beads.  Journal of Cleaner Production 188, 655-661. (高被引文章)

[6] Zhuang, S.T., Zhu, X. and Wang, J.L.* (2018). Kinetic, equilibrium, and thermodynamic performance of sulfonamides adsorption onto graphene.  Environmental Science and Pollution Research 25, 36615-36623. 

[5] Wang, J.L.*, Zhuang, S.T. and Liu, Y. (2018). Metal hexacyanoferrates-based adsorbents for cesium removal.  Coordination Chemistry Reviews 374, 430-438.

[4] Zhuang, S.T., Yin, Y.N. and Wang, J.L.* (2018). Removal of cobalt ions from aqueous solution using chitosan grafted with maleic acid by gamma radiation.  Nuclear Engineering and Technology 50, 211-215.

[3] Zhuang, S.T. and Wang, J.L.* (2018). Modified alginate beads as biosensor and biosorbent for simultaneous detection and removal of cobalt ions from aqueous solution.  Environmental Progress & Sustainable Energy 37, 260-266.

[2] Zhuang, S.T., Yin, Y.N. and Wang, J.L.* (2017). Simultaneous detection and removal of cobalt ions from aqueous solution by modified chitosan beads.  International Journal of Environmental Science and Technology 15, 385-394.

[1] Wang, J.L.* and Zhuang, S.T. (2017). Removal of various pollutants from water and wastewater by modified chitosan adsorbents.  Critical Reviews in Environmental Science and Technology 47, 2331-2386. (高被引文章)

2022年，北京市优秀毕业生

2020年，清华大学特等奖学金

2017, 2018, 2019年 连续三次获得研究生国家奖学金