一、基本信息/Basic Information
姓名/Name:蔡郡倬 / Junzhuo Cai
性别/Gender:男 / Male
最高学位/Degree:博士 / Doctor of Science
职 称/Position:特聘副教授 / Associate Professor
导师资格/Supervisor:硕士生导师/Supervisor of Master
电子邮箱/E-mail:caijunzhuo@hotmail.com
简介/Profile:
科学研究主要集中于环境科学、化学与毒理学的交叉领域,着眼于采用电化学、光化学和分子生物学方法,阐明农业环境退化新原理,开发农业环境综合治理新技术。在Environ Sci & Technol, Water Res, Adv Energy Mater, Small, Bioresour Technol, Chem Eng J, 等期刊发表SCI学术论文39篇。申请中国国家专利8项,软件著作权1项,在研国家自然科学基金等国家和省级科研项目4项,入选四川省“天府峨眉计划”人才项目。
His main research interests focus on the cross fields of environmental science, chemistry and toxicology. The research objectives is to clarify the new principle of agroenvironment deterioration, and to develop novel technologies for comprehensive remediation of agroenvironment. He has published 39 academic papers at international journals like Environ Sci & Technol, Water Res, Adv Energy Mater, Small, Bioresour Technol, Chem Eng J, and granted 8 patents in the field of environmental science, and was selected as Young Talents of Sichuan Tianfu Emei Project.
社会兼职/Professional Affiliations:
中国环境科学学会会员、国际腐殖酸协会会员、国际电子顺磁共振学会会员。四川省科技厅项目评审专家,四川省生态环境厅入库专家。《Applied Catalysis B: Environment and Energy》,《Separation and Purification Technology》等5个SCI期刊审稿人。
Member of the Chinese Society for Environmental Sciences, the International Humic Substances Society (IHSS), and the International Electron Paramagnetic Resonance Society (IES). Reviewer for Applied Catalysis B: Environment and Energy, Separation and Purification Technology, and other five SCI journals.
二、学习及工作经历/Education and Work Experience
2023年4月—至今,四川农业大学环境生态工程系,特聘副教授;
2022年8月—2023年3月,四川农业大学环境科学系,特聘副教授;
2017年9月—2018年6月,联合国环境规划署-同济大学可持续发展学院,绿色经济与可持续发展;
2016年9月—2022年3月,同济大学化学科学与工程学院,化学专业(直博),获理学博士学位,导师:赵国华 教授;
2012年9月—2016年6月,四川农业大学环境学院,环境工程专业,获工学学士学位。
2022.08 to present, Sichuan Agricultural University, Department of Environmental Science, Distinguished Associate Professor;
2017.09 to 2018.06: United Nation (UN) Environment-Tongji Institute of Environment for Sustainable Development (Minor of Green Economy and Sustainable Development)
2016.09 to 2022.03, Tongji University, Environmental Chemistry, Doctor of Science (Supervised by Prof. Guohua Zhao);
2012.09 to 2016.06, Sichuan Agricultural University, Environmental Engineering, Bachelor of Engineering.
三、科研项目/Projects
1.国家自然科学基金项目(青年基金),主持,2024.01-2026.12;
2.中国博士后科学基金项目(面上项目),主持,2023.09-2024.12;
3.四川省自然科学基金项目-青年科学基金,主持,2023.01-2024.12;
4.四川省“天府峨眉计划”青年科技人才项目,主持,2023-2026;
5.四川农业大学优秀人才引进项目,主持,2022-2027;
6.国家自然科学基金项目(重点项目),参与,已结题;
7.国家自然科学基金项目(面上项目),参与,在研。
1.National Natural Science Foundation of China (NSFC), 2024.01-2026.12;
2.China Postdoctoral Science Foundation, 2023.09-2024.12;
3.The Sichuan Science and Technology Program, Youth Science Foundation Project, 2023.01-2024.12;
4.Sichuan Tianfu Emei Project, 2023-2026;
5.Excellent Talent Launch Project of Sichuan Agricultural University, 2022-2027;
6.National Natural Science Foundation of China (Key Project), participated and completed;
7.National Natural Science Foundation of China (General Program), participated
四、 教学/Teaching
主要承担《生态风险评价》《环境信息系统》《环境化学》等本科生课程,受聘为四川农业大学创新创业导师。
1. 教学成果及项目
[1] 四川农业大学首批课程思政教学优秀案例, 2023
[2] 四川省普通本科高等学校环境科学与工程类专业教学指导委员会教师教学竞赛,《环境信息系统》, 2025, 二等奖
[3] “源-过程-汇”系统视域下环境类工科专业课程思政育人体系构建, 2023, 校级教改项目, 重点项目, 主研
[4] “智慧生态课程”:环境生态工程数字化与可视化课程群及评价体系创新, 2025, 省级教改项目, 主研
2. 指导本科生独立完成研究成果
指导本科生独立申请发明专利3项,软件著作权1项,发表论文1篇。
3. 指导本科生创新项目及竞赛
[1] 李逸轩等。 大学生创新训练计划, 2022, 省级。
[2] 冉一伽等。 大学生创业训练计划, 2023, 国家级。
[3] 王新熔等。 大学生创新训练计划, 2024, 国家级。
[4] 四川省首届创新年会, 2025, 三等奖。
[5] 四川农业大学第十九届“挑战杯”大学生课外科技作品竞赛, 2025, 三等奖。
[6] 四川省大学生环保科普创意大赛, “泌”不可分, 2024, 一等奖。
4. 本科生科研兴趣培养计划
[1] 李逸轩(2020级)等。 脉冲电化学法去除养殖废水中抗生素的关键操作条件研究,2023,校级
[2] 冉一伽(2022级)等。 废弃铁锈三维电极催化去除养殖废水中土霉素的操作条件优化,2024,校级
[3] 王新榕(2022级)等。 电催化预处理脱除竹基生物质中木质素及其关键操作条件研究,2024,校级
五、 学术论文/Recent Publications
[1] Point-of-use water treatment: energy-autonomous synergistic solar photothermal-piezocatalysis on MXene/Bi2WO6 membranes for distributed removal of sulfonamide antibiotics. Water Research, 2025: 124364. (第一作者/责任作者,自然指数来源期刊,一区TOP,IF=12.4)
[2] Sequential adsorption-oxidation pulses for alternating electrochemical advanced pretreatment of wastewater containing tetracyclines. Chemical Engineering Journal, 2025: 160725.(第一作者/责任作者,一区TOP,IF=13.2)
[3] Synergistic improvement of humus formation in compost residue by fenton-like and effective microorganism composite agents. Bioresource Technology, 2024: 130703. (第一作者,一区TOP,IF=9.0)
[4] p-π Conjugated Covalent Organic Frameworks Expedite Molecular Triplet Excitons for H2O2 Production Coupled with Biomass Upgrading. Advanced Materials, 2025: 202502220.(第四作者, IF=26.8)
[5] Nitrogen Bicoupled Carbon Bonding for Electrocatalysis of CO2 and Nitrobenzene via Engineering Hydroxyl Assisted Cobalt Single Atom. Adv Energy Mater, 2024, 14, 41: 202401530.(共同通讯作者, 一区TOP, IF=24.4, 封面论文)
[6] Controllable Generation of Sulfate and Hydroxyl Radicals to Efficiently Degrade Perfluorooctanoic Acid in Cathode-Dominated Electrochemical Process. ACS EST Water, 2023, 3, 11: 3696–3707.(共同通讯作者)
[7] Accurate Removing Toxic Organic Pollutants in Complex Water Matrices. Environmental Science & Technology,2022, 56, 5: 2917–2935.(第一作者, 自然指数来源期刊, IF=11.357)
[8] Selective Photoelectrocatalytic Removal for Group-Targets of Phthalic Esters. Environmental Science & Technology,2021, 55, 4: 2618–2627.(第一作者, 自然指数来源期刊, IF=11.357, 封面文章)
[9] Accurate Removal of Trace 17β-Estradiol and Estrogenic Activity in Blended System Under Photoelectrocatalytic Circulating Flow. Environmental Science & Technology, 2021, 55, 18: 12585–12595.(第一作者, 自然指数来源期刊, IF=11.357, 封面文章)
[10] Boron-Doped Diamond for Hydroxyl Radical and Sulfate Radical Anion Electrogeneration, Transformation, and Voltage-Free Sustainable Oxidation. Small, 2019, 15(48):1900153. (第一作者, SCI一区, IF=15.153, 卷首插图)
[11] Novel Electrochemical Pretreatment for Preferential Removal of Nonylphenol in Industrial Wastewater: Biodegradability Improvement and Toxicity Reduction. Environmental Science & Technology,2020,54(2): 1258-1266. (共同第一作者, 自然指数来源期刊, IF=11.357, 封面文章)
[12] Unique electrochemical system for in situ SO4•- generation and pollutants degradation. Chemical Engineering Journal, 2019, 386:123971.(共同第一作者, SCI一区, IF=16.744, TOP)
[13] Preferential removal of phthalic esters by photocatalysis on selective TiO2. Chemical Engineering Journal, 2023, 386:141735.(共同第一作者, SCI一区, IF=16.744, TOP)
[14] Intermediate accumulation and toxicity reduction during the selective photoelectrochemical process of atrazine in complex water bodies. Water Research, 2021, 15(205): 117663. (第二作者, 自然指数来源期刊, IF=13.4)