鄭杰蓉

工學博士，講師，衛生檢驗教研室

E.mail:zhengjierong1206@163.com

教育經歷

2020.9-2024.12，太原理工大學，環境科學與工程，博士

2017.9-2020.7，太原理工大學，環境科學與工程，碩士

2012.9-2016.7，山西大學，環境工程，學士

工作經歷

2025.1-至今，c7c7.app公共衛生學院

研究領域

新污染物定向轉化；耐藥基因傳播風險；污染物生態毒性

代表性科研項目

[1]微生物-電芬頓耦合體系強化廢水中磺胺類抗生素去除的脅迫響應分子機制及產物生態毒性影響研究,山西省博士研究生創新項目, 2021Y178, 2021.6-2022.6,主持.

[2]生物炭基鐵單原子催化污廢水深度處理的效能及機制,山西省科技合作交流專項（區域合作）項目，202304041101038, 2024.1-2026.12,參與.

[3]基于單原子Fe催化的SMFC-電芬頓耦合體系處理抗生素廢水及抗性基因轉移機制研究,山西省科技廳面上項目, 20210302124064,山西省科技廳, 2022.1-2024.12,參與.

代表性論著

[1]Jierong Zheng, Sufang Wang*, Qing Gong, Aijuan Zhou, Bin Liang, Bowei Zhao, Houfen Li, Xiao Zhang, Yu Yang, Xiuping Yue*. Fate of Antibiotic Resistance Genes and EPS Defence Mechanisms during Simultaneous Denitrification and Methanogenesis, Coupled with the Biodegradation of Multiple Antibiotics under Zinc Stress. Water Res., 2024, 261: 121996. (IF=11.4)

[2]Jierong Zheng, Sufang Wang*, Cristiano Varrone, Aijuan Zhou, Xin Kong, Houfen Li, Li Yu, Xiuping Yue*. Mechanism, electrochemistry and biotoxicity analysis of the biodegradation of sulfadiazine on Nickel(II)/Manganese(II)-modified graphite felt bioanode. Environ. Res., 2022, 210: 112928. (IF=7.7)

[3]Jierong Zheng, Sufang Wang*, Aijuan Zhou, Bowei Zhao, Jing Dong, Xiaochan Zhao, Peirui Li, Xiuping Yue*. Efficient elimination of sulfadiazine in an anaerobic denitrifying circumstance: Biodegradation characteristics, biotoxicity removal and microbial community analysis. Chemosphere, 2020, 252: 126472. (IF=8.1)

[4]鄭杰蓉,汪素芳,趙曉嬋,李培瑞,董靜,岳秀萍*.厭氧反硝化體系對磺胺嘧啶的共代謝降解特性.科學技術與工程, 2020, 20(35): 7. (中文核心)

[5] Cuicui Wang,Jierong zheng, Sufang Wang*, Aijuan Zhou, Xin Kong, Bowei Zhao, Houfen Li, Xiuping Yue*. Efficient elimination of nonylphenol and 4-tert-octylphenol by weak electrical stimulated anaerobic microbial processes. Chemosphere, 2023, 320: 138085. (IF=8.1)

[6] Yuxia Zhao,Jierong Zheng, Xiaowen Li , Sufang Wang *, Aijuan Zhou , Houfen Li , Bowei Zhao, Xiuping Yue*. Co-metabolism driven sulfaquinoxaline removal in microbial electrolysis cells: A mechanistic analysis based on DFT calculation, metabolic pathway and functional enzyme activity. J. Environ. Chem. Eng., 2024, 12: 112153. (IF=7.4)

[7]汪素芳,鄭杰蓉,趙曉嬋,李培瑞,董靜,岳秀萍*.陰陽室微生物燃料電池對磺胺嘧啶的降解性能及其產物生物毒性.科學技術與工程, 2020,20(10): 4172-4177. (中文核心)

已授權專利

汪素芳,鄭杰蓉,岳秀萍,周愛娟,趙曉嬋.采用鎳錳離子改性電極材料處理污水中磺胺嘧啶的方法.發明專利. 201811066138.6. 2021-3-12