[基本信息]

姓名：王贞凯

出生年月：1996.01

学历学位：研究生 博士

职称：讲师

职务：专任教师

学科专业：化学工程与技术

E-mail: 285596390@qq.com

[教育背景和工作经历]

2014.09至2018.06，武汉纺织大学，化学工程与工艺，本科/学士

2018.09至2021.06，苏州大学，化学工程与技术，研究生/硕士

2021.09至2025.06，苏州大学，化学工程与技术，研究生/博士

2025.09至今，连云港师学院，海洋港口学院，讲师

[研究方向]

新污染物削减、工业废水深度处理

[项目]

1. 2018年宁波市国家高新区（新材料科技城）重大技术创新项目，市厅级，主要参与人。

[学术成果]

Zhenkai Wang, Sheng-Peng Sun. Anchored highly stable Fe-Mn bimetallic catalyst in Al₂O₃ ceramic membranes for boosting Oxone activation and efficient degradation of emerging micropollutants [J]. Journal of Membrane Science, 2025, 123988. (IF = 8.4, 中科院一区)

Zhenkai Wang, Sheng-Peng Sun. Oxone activation by UVA-irradiated Fe^III-NTA complex: Efficacy, radicals formation and mechanism on crotamiton degradation [J]. Chemical Engineering Journal, 2020, 127324. (IF = 16.7, 中科院一区）

Ting Su, Zhenkai Wang, Sheng-Peng Sun. Advanced treatment of secondary effluent organic matters (EfOM) from an industrial park wastewater treatment plant by Fenton oxidation combining with biological aerated filter [J]. Science of the Total Environment, 2021, 147204. (IF = 10.8, 中科院一区，共一（主要贡献者 > 95%))

Yifan Li, Zhenkai Wang, Jing Lei, Sheng-Peng Sun. Boosting activation of S₂O₈^2- by Fe³⁺-tartaric acid complex for rapid carbamazepine degradation via photo-Fenton mechanism [J], Journal of Water Process Engineering, 2024, 68, 106463. (IF = 6.3, 中科院一区，导师一作）

Zhenkai Wang, Sheng-Peng Sun. Channel confined CoFe₂O₄-catalytic ceramic membrane for efficient emerging micropollutants removal and membrane fouling control via peroxymonosulfate activation. (Journal of Membrane Science在审, IF = 8.4, 中科院一区)

Kang Zhou, Zhenkai Wang, Sheng-Peng Sun. Degradation of emerging pharmaceutical micropollutants in municipal secondary effluents by low-pressure UVC-activated HSO₅⁻ and S₂O₈²⁻ AOPs [J]. Chemical Engineering Journal, 2020, 124712. (IF = 13.3, 中科院一区)

Lei Su, Yifan Li, Zhenkai Wang, Sheng-Peng Sun. Nonradical activation of Oxone over Fe-doped nitrogen carbon (Fe@NC) armor catalysts for efficient degradation of anthropogenic phenolics (p-nitrophenol, 4-chlorophenol) in groundwater matrices [J], Chemical Engineering Journal, 2023, 146920. (IF = 13.3, 中科院一区)

Chongjia Wang , Yifan Li, Zhenkai Wang, Sheng-Peng Sun. High-valent ferryl intermediates generation, reactivity and kinetic characterization with contaminants of emerging concern via a facile photo-Fenton competition kinetic methodology [J]. Journal of Hazardous Materials. (IF = 12.2，中科院一区)

Tian Lv, Shuai Liu, Tao Wang, Zhenkai Wang, Deqi Liu. High-efficiency transformation of O₂ into •OH by cooperative catalysis of double Ni-Ag codoped SiO₂/ACF electrodes in membrane-less electrolyzer for phenol degradation [J]. Journal of Environment Chemical Engineering, 2024, 114050. (IF = 7.4，中科院一区）

Ting Su, Xiaoning Wang, Xinan Chen, Yan Cheng, Zhenkai Wang, Sheng-Peng Sun. Fe³⁺-NTA-catalyzed homogenous Fenton-like degradation of trichloroethylene in groundwater at natural pH (~8.0): Efficacy, by-products, and H₂O₂ utilization [J]. Journal of Environmental Engineering, 2022, 04021072. (IF = 1.2，中科院四区)

周康，王贞凯，孙胜鹏. MBBR及UVC高级氧化技术深度处理典型医药品微污染物效能[J]。环境工程，2022，40(5)：37-43。

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