郭恺恒 - 中山大学 - 环境科学与工程学院

个人简介

郭恺恒，副教授。主要从事高级氧化技术、自由基化学和过渡态金属化学等与水污染控制相关的研究。主持国家自然科学基金青年项目和广东省科学基金项目。目前在 Environmental Science & Technology 、 Water Research 、 Accounts of Chemical Research 等国内外知名学术期刊发表论文30余篇，其中第一/通讯作者论文12篇。工作经历： 2024/04-至今，副教授，中山大学，环境科学 2021/03-2024/03，博士后，中山大学，环境工程教育经历：（1）2015-09至2020-12, 中山大学, 环境工程, 博士（2）2011-09至2015-06, 中山大学, 环境科学, 本科

研究领域

（1）高级氧化技术（2）水环境中的自由基化学（3）活性过渡态金属化学

近期论文

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1. Cao, Y.; Wang, Z.; He, S.; Shi, L.; Guo, K.*; Fang, J*. (2024) Reinvestigation on high-valent cobalt for the degradation of micropollutants in the Co(II)/peroxymonosulfate system: roles of Co(III). Environ. Sci. Technol . 58, 3564-3575. 2. Guo, K. ; Zhang, Y.; Wu, S.; Qin, W.; Wang, Y.; Hua, Z.; Chen, C.; Fang, J*. (2023) Comprehensive assessment of reactive bromine species in advanced oxidation processes: Differential roles in micropollutant abatement in bromide-containing water. Environ. Sci. Technol . 57, 20339-20348. 3. Wu, S.; Guo, K.* ; Xie, R.; He, S.; Wei, W.; Fang, J. (2023) Enhancing the abatement of permanganate-inert micropollutants: multiple roles of nascent manganese dioxide in permanganate oxidation. Water Res. 245, 120562. 4. Guo, K. # ; Wu, Z. # ; Chen, C; Fang, J*. (2022) UV/chlorine process: An efficient advanced oxidation process with multiple radicals and functions in water treatment. Accounts Chem. Res . 55, 286-297. (ESI highly cited) 5. Guo, K. ; Zheng, S.; Zhang, X.; Zhao, L.; Ji, S.; Chen, C.; Wu, Z.; Wang, D.; Fang, J*. (2020) Roles of bromine radicals and hydroxyl radicals in the degradation of micropollutants by the UV/Bromine process. Environ. Sci. Technol . 54, 6415-6426. 6. Guo, K. ; Zhang, J.; Li, A.; Xie, R.; Liang, Z.; Wang, A.; Ling, L.; Li, X.; Li, C.; Fang, J*. (2018) Ultraviolet irradiation of permanganate enhanced the oxidation of micropollutants by producing HO • and reactive manganese species. Environ. Sci. Tech. Lett. 5 (12), 750–756. ( ACS Editors’ Choice, cover article) 7. Guo, K. ; Wu, Z.; Shang, C.; Yao, B.; Hou, S.; Yang, X.; Song, W.*; Fang, J*. (2017) Radical chemistry and structural relationships of PPCP degradation by UV/Chlorine treatment in simulated drinking water. Environ. Sci. Technol. 51(18), 10431-10439. (ESI highly cited) 8. Guo, K. ; Wu, Z.; Yan, S.; Yao, B.; Song, W.; Hua, Z.; Zhang, X.; Kong, X.; Li, X.; Fang, J*. (2018) Comparison of the UV/chlorine and UV/H 2 O 2 processes in the degradation of PPCPs in simulated drinking water and wastewater: Kinetics, radical mechanism and energy requirements. Water Res . 147, 184-194. (ESI highly cited) 9. Hua, Z. # ; Guo, K. # ; Kong, X.; Lin, S.; Wu, Z.; Wang, L.; Huang, H.; Fang, J.* (2019) PPCP degradation and DBP formation in the solar/free chlorine system: Effects of pH and dissolved oxygen. Water Res . 150, 77-85. (ESI highly cited) 10. Guo, K. ; Wei, W.; Wu, S; Song, W.; Fang, J*. (2022) Abatement of structurally diverse micropollutants by the UV/Permanganate process: roles of hydroxyl radicals and reactive manganese species. ACS ES&T water. 2, 593-603. 11. Wei, W.; Kang, X.; Wu, S.; Sharma, V. K.; Xie, R.; Xia, B.; Guo, K.* ; Fang, J. (2023) The removal of Cd(II) by the UV/permanganate process: role of continuously in situ formed MnO 2 and reactive species. Environ. Sci.-Water Res. & Tech. 2023, 9, 2031-2040. 12. Guo, K.#; Wu, Z.#; Fang, J., Chapter 10 - UV-based advanced oxidation process for the treatment of pharmaceuticals and personal care products. In Contaminants of Emerging Concern in Water and Wastewater , Hernández-Maldonado, A. J.; Blaney, L., ^Eds. Butterworth-Heinemann: 2020; pp 367-408. (book chapter)