水环境化学和高级氧化技术

2010.09—2014.07  南京大学，环境学院，获工学学士学位

2014.09—2017.04  同济大学，环境科学与工程学院，获工学学士学位，导师：吴德礼 教授

2017.09—2022.04  新南威尔士大学，土木与环境工程学院，博士学位，导师：T. David Waite 院士

2022.09—2022.12  新南威尔士大学，Water Research Center，博士后研究员

2022.12—至今 浙江工商大学，环境科学与工程学院，讲师

Environmental Science & Technology, Water Research和Journal of Hazardous Materials审稿人。

4.         2022年   新南威尔士大学Dean's Award

3.     2017年   新南威尔士大学Tuition Fee Scholarship

2.         2017年   同济大学优秀毕业生

1.         2016年   教育部国家奖学金

个人主页：https://yufan-chen.com

ORCID: 0000-0002-2493-1518

[1] Chen, Y.; Miller, C. J.; Xie, J.; Waite, T. D., Challenges relating to the quantification of ferryl(IV) ion and hydroxyl radical generation rates using methyl phenyl sulfoxide (PMSO), phthalhydrazide, and benzoic acid as probe compounds in the homogeneous Fenton reaction. Environmental Science & Technology 2023. 

[2] Chen, Y.; Vu, H.; Miller, C. J.; Garg, S.; Pan, D.; Waite, T. D., Comparative experimental and computational studies of hydroxyl and sulfate-radical mediated degradation of simple and complex organic substrates. Environmental Science & Technology 2022, 56, (12), 8819-8832. 

[3] Chen, Y.; Miller, C. J.; Waite, T. D., pH dependence of hydroxyl radical, ferryl, and/or ferric peroxo species generation in the heterogeneous Fenton process. Environmental Science & Technology 2022, 56, (2), 1278-1288.

[4]Chen, Y.; Miller, C. J.; Waite, T. D., Heterogeneous Fenton chemistry revisited: mechanistic insights from ferrihydrite-mediated oxidation of formate and oxalate. Environmental Science & Technology 2021, 55, (21), 14414-14425.

[5] Chen, Y.; Miller, C. J.; Collins, R. N.; Waite, T. D., Key considerations when assessing novel Fenton catalysts: iron oxychloride (FeOCl) as a case study. Environmental Science & Technology 2021, 55, (19), 13317–13325.

[6] Chen, Y.; Feng, Y.; Chu, H.; Wu, D.; Zhang, Y., Cu (II)-enhanced activation of molecular oxygen using Fe (II): Factors affecting the yield of oxidants. Chemosphere2019, 221, 383-391.

[7] Wu, D.; Chen, Y.; Zhang, Z.; Feng, Y.; Liu, Y.; Fan, J.; Zhang, Y., Enhanced oxidation of chloramphenicol by GLDA-driven pyrite induced heterogeneous Fenton-like reactions at alkaline condition. Chemical Engineering Journal2016, 294, 49-57.

[8] Wu, D.; Chen, Y.; Zhang, Y., Feng, Y.; Shih, K., Ferric iron enhanced chloramphenicol oxidation in pyrite (FeS2) induced Fenton-like reactions, Separation and Purification Technology 2015, 154, 60-67.

[9] Zhao, L.; Chen, Y.; Feng, Y.; Wu, D., Oxidation of acetaminophen by green rust coupled with Cu (II) via dioxygen activation: the role of various interlayer anions (CO₃²⁻, SO₄²⁻, Cl⁻). Chemical Engineering Journal 2018, 350, 930-938.

[10] Shao, B.; Chen, Y.; Wu, D.; Dai, C.; Zhang, Y., Mineral transformation of structural Fe (II) hydroxides with O₂, Cu (II), Cr (VI) and NO₂⁻ for enhanced arsenite sequestration. Chemical Engineering Journal 2017, 311, 247-254.

[11] Zhao, L.; Chen, Y.; Liu, Y.; Luo, C.; Wu, D., Enhanced degradation of chloramphenicol at alkaline conditions by S (-II) assisted heterogeneous Fenton-like reactions using pyrite. Chemosphere 2017, 188, 557-566.