肖钧洋 简介

基本信息

肖钧洋，男，1997年4月出生，湖南洪江人，中共党员，工学博士

台湾色情 副教授，硕士生导师

新疆维吾尔自治区“天池英才”（青年博士）

共发表SCI论文40余篇，其中以第一作者/共同一在Applied Catalysis B: Environment and Energy、Journal of Hazardous Materials、Journal of Cleaner Production等学术期刊发表SCI论文8篇，申请发明专利3项。长期担任Journal of Hazardous Materials和Separation and Purification Technology等SCI期刊审稿人。

联系方式：17690570925，[email protected]，水建学院325室

研究方向

水处理高级氧化技术、环境功能纳米材料

招生专业

土木水利（市政工程方向）

（欢迎给排水、环境、微生物、材料等相关专业同学报考研究生；欢迎本科生进组学习！！！）

教育经历

2019.08-2024.06      湖南大学环境科学与工程学院   环境科学与工程   博士   导师：董浩然教授

2015.09-2019.06      华侨大学土木工程学院       给排水科学与工程   学士   学术导师：邹景教授

工作经历

2025.08-至今         台湾色情 给排水科学与工程系   副教授/硕导

2024.09-2025.08      台湾色情 给排水科学与工程系   讲师

科研项目

[1] 新疆维吾尔自治区“天池英才”（青年博士）项目（CZ002357），2025-2028年，主持

[2] 台湾色情 高层次人才（第一层次）科研启动项目（RCZK202509），2025-2027年，主持

代表性论文：

[1] JunyangXiao, Yangju Li, Haoran Dong*, et al. Highly efficient activation of peracetic acid via zero-valentiron-copper bimetallic nanoparticles (nZVIC) for the oxidation of sulfamethazine in aqueous solution underneutral condition. Applied Catalysis B: Environment and Energy, 2024,340:123183.（SCI，中科院一区Top，JCR Q1，IF = 21.1）

[2] JunyangXiao, Yangju Li, Haoran Dong*, et al. Iodide ion as an electron shuttle to significantly accelerate the elimination of sulfamethazine in the Fenton-like system under neutral condition. Applied Catalysis B: Environment and Energy, 2024,344:123610.（SCI，中科院一区Top，JCR Q1，IF = 21.1）

[3] JunyangXiao, Haoran Dong*, Yangju Li, et al. Graphene shell-encapsulated copper-based nanoparticles(G@Cu-NPs) effectively activate peracetic acid for elimination of sulfamethazine in water under neutralcondition. Journal of Hazardous Materials, 2023,441: 129895.（SCI，中科院一区Top，JCR Q1，IF = 11.3）

[4] JunyangXiao, Shuangjie Xiao, Haoran Dong*, et al. Degradation of sulfamethazine by amorphous zero-valentiron microspheres (A-mZVI) activated peroxydisulfate in groundwater. Journal of Cleaner Production, 2022,346:131276.（SCI，中科院一区Top，JCR Q1，IF = 10）

[5] JunyangXiao, Yangju Li, Haoran Dong*, et al. Diethylenetriaminepentaacetic acid (DTPA)-reinforced Fenton-like process for efficient abatement of sulfamethazine at circumneutral pH in simulated groundwater. Separation and Purification Technology, 2024,336:126266.（SCI，中科院一区Top，JCR Q1，IF = 9）

[6] JunyangXiao, Rui Li, Haoran Dong*, et al. Activation of sulfite via zero-valent iron-manganese bimetallicnanomaterials for enhanced sulfamethazine removal in aqueous solution: Key roles of Fe/Mn molar ratio andsolution pH. Separation and Purification Technology, 2022,297:121479.（SCI，中科院一区Top，JCR Q1，IF = 9）

[7] JunyangXiao, Mengyun Wang, Zijun Pang, Lin Dai, Jinfeng Lu, Jing Zou*. Simultaneous spectrophotometric determination of peracetic acid and the coexistent hydrogen peroxide using potassium iodide as the indicator. Analytical Methods, 2019,11(14):1930-1938.（SCI，中科院三区，JCR Q1，IF = 2.7）

[8]YangjuLi¹, JunyangXiao¹, Haoran Dong*, et al. Enhanced chalcopyrite-catalyzed heterogeneous Fenton oxidation of diclofenac by ABTS. Journal of Hazardous Materials, 2024,463:132908.（共同一作，SCI，中科院一区Top，JCR Q1，IF = 11.3）

[9] Zijun Pang, Junyang Xiao, Jiaxin Liu, et al. Microscopic mechanism of Mn-doped spinel ferrite catalytic ozonation: Interfacial metal synergy and electron transfer-mediated O₃ activation. Chemical Engineering Journal, 2025, 523:168518.（SCI，中科院一区Top，JCR Q1，IF = 13.2）

[10] JinbinLin, Junyang Xiao, Hengyu Cai, et al. Multi-wavelength spectrophotometric determination of peracetic acid and the coexistent hydrogen peroxide via oxidative coloration of ABTS with the assistance of Fe²⁺ and KI. Chemosphere,2022,287:132242.

[11] Jie Dong, HaoranDong*, JunyangXiao, et al. Enhanced degradation of micropollutants in a peracetic acid/Mn(II) system with EDDS: An investigation of the role of Mn species. Environmental Science & Technology, 2024, 58(27):12179-12188.（SCI，中科院一区Top，JCR Q1，IF = 11.3）

[12] YangjuLi, Haoran Dong*, JunyangXiao, et al. Ascorbic acid-assisted iron silicate composite activated peroxydisulfate for enhanced degradation of aqueous contaminants: Accelerated Fe(III)/Fe(II) cycle and the interaction between iron and silicate. Chemical Engineering Journal, 2022,455:140773.（SCI，中科院一区Top，JCR Q1，IF = 13.2）

[13] YangjuLi, Haoran Dong*, JunyangXiao, et al. Oxidation of sulfamethazine by a novel CuS/calcium peroxide/tetraacetylethylenediamine process: High efficiency and contribution of oxygen-centered radicals. Chemical Engineering Journal, 2022,446:136882.（SCI，中科院一区Top，JCR Q1，IF = 13.2）

[14] JinbinLin, Yuye Hu,JunyangXiao,et al. Enhanced diclofenac elimination in Fe(II)/peracetic acid process bypromoting Fe(III)/Fe(II) cycle with ABTS as electron shuttle. Chemical Engineering Journal, 2021,420:129692.（SCI，中科院一区Top，JCR Q1，IF = 13.2）

[15] YangjuLi, Haoran Dong*, JunyangXiao, et al. Insights into a novel CuS/percarbonate/tetraacetylethylenediamine process for sulfamethazine degradation in alkaline medium. Journal of Hazardous Materials, 2022,435:128999.（SCI，中科院一区Top，JCR Q1，IF = 11.3）

[16] YangjuLi, Haoran Dong*, JunyangXiao, et al. Advanced oxidation processes for water purification using percarbonate: Insights into oxidation mechanisms, challenges, and enhancing strategies. Journal of Hazardous Materials, 2023,442:130014.（SCI，中科院一区Top，JCR Q1，IF = 11.3）

[17] YangjuLi, Haoran Dong*, JunyangXiao, et al.Ascorbic Acid-Enhanced CuO/Percarbonate Oxidation: Insights Into the pH-Dependent Mechanism. ACS ES&T Engineering, 2023,3:798-810.（SCI，中科院三区，JCR Q2，IF = 6.7）

授课信息

[1]土建工程基础

[2]工业水处理技术

指导学生

2024级硕士：徐盛（与李俊峰教授联合指导）