程鑫,博士,副研究员。国际学术组织Vebleo协会会士,入选2023年度“国家资助博士后人才计划”B档,自2022年起,连续入选爱思唯尔“科学影响力排行榜”全球TOP 2%顶尖科学家榜单,长期致力于碳基催化材料设计与环境水处理技术的交叉前沿研究,先后主持国家自然科学基金、国家科技重大专项子课题、中国博士后科学基金、四川省自然科学基金等科研项目,以第一/通讯作者在Water Research, Applied Catalysis B: Environment and Energy等期刊发表学术论文,论文引用4500余次,ESI高被引论文2篇,H-index 30,获2024年四川省自然科学奖二等奖、2025年中国商业联合会科学技术奖技术发明奖特等奖。
联系方式:xin.cheng@scu.edu.cn
学习及工作经历:
2025.09-至今 四川大学,副研究员
2022.12-2025.09 四川大学,助理研究员、副研究员 (专职科研)
2021-2022 香港科技大学土木与环境工程系,博士后
2018-2020 耶鲁大学化学与环境工程系,联合培养博士
2017-2020 四川大学,土木工程专业(市政工程),工学博士
2014-2017 四川大学,土木工程专业(市政工程),工学硕士
2010-2014 四川大学,给水排水工程专业,工学学士
主要研究领域:
高级氧化技术的水处理应用
生物质碳催化剂的开发与应用
光/电催化驱动新型功能材料的环境应用与能源转换
主持科研项目:
1. 京津冀环境综合治理国家科技重大专项-子课题 (2025-2028,100万元)
2. 省市重大项目-课题 (2026-2029,305万元)
3. 横向项目-技术开发 (2025-2028,205万元)
4. 国家自然科学基金青年项目 (2024-2026,30万元)
5. 四川省自然科学基金青年项目 (2025-2026,10万元)
6. 中国博士后科学基金面上项目 (2023-2025,8万元)
7. 四川大学专职博士后研发基金项目 (2024-2025,15万元)
学术兼职:
1. Vebleo协会会士
2. Applied Sciences 特刊编辑
3. Clean Technology for Resource, Energy and Environment 编委
4. Environmental Science & Technology、Water Research、Chemical Engineering Journal等期刊审稿人
获奖和荣誉:
1. 2024年四川省自然科学奖 二等奖
2. 2025年中国商业联合会科学技术奖·技术发明奖 特等奖
3. 2022-2025年爱思唯尔“科学影响力排行榜”全球TOP 2%顶尖科学家
一作/通讯发表学术专著:
[1] Metal-free Carbocatalysis for Persulfate Activation toward Organic Oxidation. Persulfate-based Oxidation Processes in Environmental Remediation (Invited Book Chapter 6). Royal Society of Chemistry 2022.
一作/通讯发表学术论文:
[1] Unlocking nonradical chlorine activation on N-doped biochar: Surface-bound complexes generation governing efficient diclofenac abatement. Applied Catalysis B: Environment and Energy, 2026.
[2] Anchoring free chlorine on carbon nanotubes to drive nonradical oxidation: interfacial binding-mediated complex generation enabling contaminant abatement. Chemical Engineering Journal, 2026.
[3] Constructing a Z-scheme heterojunction on leather waste-derived biochar supporting graphitic carbon nitride for highly-efficient photocatalysis toward water decontamination. Chemical Engineering Journal, 2026.
[4] Spatially explicit process-resolved fluxes and microbial drivers: Linking community succession to greenhouse gas emissions from full-scale industrial wastewater treatment. Journal of Water Process Engineering, 2026.
[5] Binding interaction between chlorine and powder activated carbon driving nonradical oxidation toward diclofenac abatement: surface-bound complexes generating on diverse sites performing diverse duties. Water Research, 2025.
[6] Unraveling molecular binding interaction of per-and polyfluoroalkyl substances with human serum albumin: Conformational rearrangement, bioaccumulation potential and toxicokinetic implications. Environmental Chemistry and Ecotoxicology, 2025.
[7] Distribution, ozone formation potential, and health risk assessments of VOCs in automotive seat cushion leather during finishing process. Journal of Hazardous Materials, 2025.
[8] Fe-doped tannin-derived biochar inducing radical/nonradical oxidation pathways toward catechol abatement: a strategy of turning waste in leather industry into treasure to drive carbocatalysis-mediated persulfate activation. Separation and Purification Technology, 2025.
[9] Understanding roles of π electron delocalization and hybridization transformation of nanodiamond in carbocatalysis-mediated persulfate activation regime. Separation and Purification Technology, 2025.
[10] Trace amino-containing indoline-mediated Fe(VI) activation toward effective abatement of 6-methylquinoline: A new application scenario of Fe(VI) without the involvement of external activators. Journal of Water Process Engineering, 2025.
[11] CuS assisted Fe(III)-induced peracetic acid activation for bisphenol A degradation: significance of synergetic roles of copper and sulfur in enhanced Fenton-like process. Chemical Engineering Journal, 2024.
[12] Visible Light-Driven NH2Cl Activation by g-C3N4 Photocatalysis Producing Reactive Nitrogen Species to Degrade Bisphenol A. Water Research, 2023.
[13] Reevaluation for UV photolysis of Fe (III) inducing tetracycline abatement: Overlooked significance of complexation-assistance in environmental fates of antibiotics. Journal of Hazardous Materials, 2023.
[14] Deprivation of Unpaired Electrons on Graphitic Carbon Nitride-based Carbocatalysts by Peroxydisulfate Driving a Nonradical Oxidation Process. Journal of Cleaner Production, 2022.
[15] Metal-free carbocatalysis for persulfate activation toward nonradical oxidation: Enhanced singlet oxygen generation based on active sites and electronic property. Chemical Engineering Journal, 2020.
[16] Insights into the mechanism of nonradical reactions of persulfate activated by carbon nanotubes: Activation performance and structure-function relationship. Water Research, 2019 (高被引论文).
[17] Non-photochemical production of singlet oxygen via activation of persulfate by carbon nanotubes. Water Research, 2017 (高被引论文).
[18] Oxidation of 2,4-dichlorophenol by non-radical mechanism using persulfate activated by Fe/S modified carbon nanotubes. Journal of Colloid and Interface Science, 2016.
[19] Performance and mechanism on degradation of estriol using O3/PS process. Ozone: Science & Engineering, 2016.
发明专利:
[1] 改性碳纳米管、水处理剂及应用,ZL 202610026547.1
[2] 一种垃圾渗滤液膜浓缩液处理剂及其制备方法,ZL 202411926392.4
[3] 一种污泥脱水除臭剂及其制备方法,ZL 202411912675.3
[4] 兼顾去除页岩气废水中COD和重金属的去除剂及制备方法,ZL202510040756.7
[5] 海泡石复合材料、制备方法及其在制革浸水废液中的应用,ZL202511885745.5
[6] 一种自乳化油废水去除剂及其制备方法,ZL 202510040759.0
[7] 一种基于硼、钕改性软铋矿铁...水中残留内分泌干扰物的方法,ZL 201810235016.9
[8] 一种利用基于碳基磁性铁钴双金属材料激活过一硫酸盐去除水中雌激素的方法,ZL 201810234277.9
国家标准:
[1] 鞋类和鞋类部件抗真菌性能定量评估试验方法,GB/T 44944-2024
