姓名:

熊兆锟

性别:

出生年月:

1990年9月

学位:

博士

职称:

副教授

电子邮箱:

scuxzk@scu.edu.cn

团队名称:

新葡萄8883官网AMG德渥群芳高级氧化技术创新团队

通讯地址:

成都市一环路南一段24号

邮编:

610065


【个人描述】

贵州省遵义市人,副教授,硕士生导师,环境科学与工程系副主任,四川省水安全与水污染控制工程技术研究中心副主任,新葡萄8883官网AMG双百人才,国际水协会(IWA)中国青年委员会委员,入选2023年全球前2%顶尖科学家榜单,微信公众号“Environmental Advances”主编。主要从事水污染控制技术的研发工作,重点研究高级氧化技术在医院污水和有毒难降解工业废水中的应用。主持国家重点研发计划青年科学家项目(课题负责人)、国家自然科学基金青年基金、中国博士后科学基金特别资助/面上资助、四川省自然科学基金青年/面上项目等科研项目10余项。以第一/通讯作者在Environmental Science & Technology、Water Research、Applied Catalysis B: Environmental等环境领域权威期刊发表论文40余篇(ESI高被引论文17篇,热点论文3篇),H因子/年龄>1。获2023年Chinese Chemical Letters环境化学青年科学家奖、中国环保产业协会环境技术进步一等奖、第一届全国博士后创新创业大赛银奖、第二十四届中国专利优秀奖和首届川渝科技学术大会优秀论文二等奖。担任Chinese Chemical Letters青年编委、Environmental Functional Materials创刊编委、《工业水处理》青年编委。研发的核心技术与装备已在医院污水和养殖废水处理中进行中试和工程应用。

【学习及工作经历】

2021. 9-至今       新葡萄8883官网AMG,新葡萄8883官网AMG,副教授

2018. 7-2021. 8   新葡萄8883官网AMG,新葡萄8883官网AMG,博士后

2013. 9-2018. 6,   新葡萄8883官网AMG环境工程,工学博士

2009. 9-2013. 6,   新葡萄8883官网AMG环境工程,工学学士

【主要研究领域】

1. 环境催化材料的开发及其在新污染物治理中的应用

2. 铁基材料高级氧化技术的基础与应用研究

3. 医院污水同步消杀除污处理技术与装备研发

【承担的主要课程】

本科生:《物理性污染控制工程》《泵与风机》《科学进步与技术革命》

研究生:《水处理中高级氧化法的原理和工程应用》《环境工程前沿技术》《环境工程前沿与进展》《环境工程创新实践》

【主持科研项目】

1. 国家重点研发计划青年科学家项目,2021YFA1202500,2022.01-2026.12,课题负责人

2. 国家自然科学基金青年科学基金,52200105,2023.01-2025.01,主持

3. 中国博士后科学基金第12批特别资助,2019T1208432019.06-2021.06,主持

4. 中国博士后科学基金第64批面上资助,2018M6434812018.12-2019.11,主持

5. 四川省自然科学基金面上项目,2023NSFSC03442023.01-2024.12,主持

6. 四川省自然科学基金青年基金2019YJ00912019.01-2021.01,主持

7. 四川省科技厅创新苗子工程项目,20180572018.07-2019.06,主持

8. 成都市科技创新研究项目,2021-YF05-00892-SN2021.06-2022.05,主持

9. 新葡萄8883官网AMG博士后交叉学科创新启动基金项目,2019.01-2020.12主持

10. 中央高校基本科研业务费,2020.05-2020.10,主持

11. 新葡萄8883官网AMG专职博士后研发基金项目,2019.01-2020.10,主持

【代表性论文】

2023

[1] Wu Z.L.,#, Xiong Z.K.#, Liu W.*, Liu R., Feng X.Z., Huang B.K., Wang X.H., GaoY.X., Chen H., Yao G., Lai B.*, Active Center Size-Dependent Fenton-Like Chemistry for Sustainable Water Decontamination. Environmental Science & Technology 2023, 57, 21416−21427.

[2] Huang B.K., Wu Z.L., Wang X.H., Song X.Y., Zhou H.Y., Zhang H., Zhou P., Liu W., Xiong Z.K.*, Lai B.*, Coupled Surface-Confinement Effect and Pore Engineering in Single Fe Atoms Catalyst for Ultrafast Fenton-like Reaction with High-valent Iron-oxo Complexes Oxidation. Environmental Science & Technology 2023, 57, 15667−15679.

[3] Huang B.K.#, Ren X.Y.#, Zhao J.#, Wu Z.L., Wang X.H. Song X.Y., Li X.N.*, Liu B., Xiong Z.K.*, Lai B.*, Modulating Electronic Structure Engineering of Atomically Dispersed Cobalt Catalyst in Fenton-like Reaction for Efficient Degradation of Organic Pollutants. Environmental Science & Technology 2023, 57, 14071–14081.

[4] Wu Z.L., Huang B.K., Wang X.H., He C.S., Liu Y., Du Y., Liu W., Xiong Z.K.*, Lai B.*, Facilely Tuning the First-Shell Coordination Microenvironment in Iron Single-Atom for Fenton-like Chemistry toward Highly Efficient Wastewater Purification. Environmental Science & Technology 2023, 57, 14046–14057.

[5] Song X.Y., Shi Y., Wu Z.L., Huang B.K., Wang X.H., Zhang H., Zhou P., Liu W., Pan Z.C., Xiong Z.K.*, Lai B.*, Unraveling the discriminative mechanisms for peroxy activation via atomically dispersed Fe-N5 sites for tunable water decontamination. Applied Catalysis B: Environmental 2024, 340, 123240.

[6] Wang X.H., Xiong Z.K.*, Shi H.L., Wu Z.L., Huang B.K., Zhang H., Zhou P., Pan Z.C., Liu W., Lai B.*, Switching the reaction mechanisms and pollutant degradation routes through active center size-dependent Fenton-like catalysis. Applied Catalysis B: Environmental 2023, 329, 122569.

[7] Yu Y.H., Yu C.X., Wu Z.L., Huang B.K., Zhou P.*, Zhang H., Liu W., Liu Y.C., Xiong Z.K.*, Lai, B., Switching the primary mechanism from a radical to a nonradical pathway in electrocatalytic ozonation by onsite alternating anode and cathode. Chemical Engineering Journal 2023, 457, 141340.

[8] Long X.H., Shi H.L., Huang R.F.*, Gu L.Y., Liu Y., He C.S., Du Y., Xiong Z.K.*, Liu W., Lai B., Identifying the evolution of primary oxidation mechanisms and pollutant degradation routes in the electro-cocatalytic Fenton-like systems. Journal of Hazardous Materials 2023, 445, 130577.

[9] Luo K.Y., Shi Y., Huang R.F.*, Wei X.P.*, Wu Z.L., Zhang H., Zhou P., Wang Y., Xiong Z.K.*, Lai B., Activation of periodate by N-doped iron-based porous carbon for degradation of sulfisoxazole: Significance of catalyst-mediated electron transfer mechanism. Journal of Hazardous Materials 2023, 457, 131790.

[10] Yu C.X., Wu Z.L., Shi H.L., Gu L.Y.*, Chen K.X., He C.S., Yang Liu, Zhang H., Zhou P., Xiong Z.K.*, Lai B., Insights into the electron transfer mechanisms of peroxydisulfate activation by modified metal-free acetylene black for degradation of sulfisoxazole, Chinese Chemical Letters 2023, 109334.

[11] Song J.L., Liu W., Xiong Z.K.*, Lai B., Huang R.F.*, Understanding the multiple functions of the electrolyte tetrapolyphosphate in Electro-Fenton system for effective removal of diclofenac. Separation and Purification Technology 2024, 330, 125327

2022

[12] Long X.H., Xiong Z.K.*, Huang R.F., Yu Y.H., Zhou P., Zhang H., Yao G., Lai B.*, Sustainable Fe(III)/Fe(II) cycles triggered by cocatalyst of weak electrical current in Fe(III)/peroxymonosulfate system: Collaboration of radical and non-radical mechanisms, Applied Catalysis B: Environmental 2022, 317, 121716. (ESI高被引论文

[13] Yu Y.H., Xiong Z.K.*, Huang B.K., Wang X.H., Du Y., He C.S., Liu Y., Yao G., Lai B.*, Synchronous removal of pharmaceutical contaminants and inactivation of pathogenic microorganisms in real hospital wastewater by electro-peroxone process, Environment International 2022, 168, 107453.

[14] Chen Y., Long X.H., Huang R.F.*, Zhang I., Yao G., Lai B., Xiong Z.K.*, Highly efficient electro-cocatalytic Fenton-like reactions for the degradation of recalcitrant naphthenic acids: Exploring reaction mechanisms and environmental implications, Chemical Engineering Journal 2022, 450, 138331.

[15] Yang L.W., Xiong Z.K.*, Li J.W., Wu Z.L., Zhao X., Zhao C., Zhou Y., Qian Y., Lai B.*, Iron active sites encapsulated in N-doped graphite for efficiently selective degradation of emerging contaminants via peroxymonosulfate (PMS) activation: Inherent roles of adsorption and electron-transfer dominated nonradical mechanisms, Chemical Engineering Journal 2022, 444, 136623.

[16] Wu Z.L., Xiong Z.K.*, Liu R., He C.S., Liu Y., Pan Z.C., Yao G., Lai B., Pivotal roles of N-doped carbon shell and hollow structure in nanoreactor with spatial confined Co species in peroxymonosulfate activation: Obstructing metal leaching and enhancing catalytic stability, Journal of Hazardous Materials 2022, 427, 128204. (ESI高被引论文)

[17] Yu C.X., Xiong Z.K.*, Zhou H.Y., Zhou P., Zhang H., Huang R.F., Yao G., Lai B., Marriage of membrane filtration and sulfate radical-advanced oxidation processes (SR-AOPs) for water purification: Current developments, challenges and prospects. Chemical Engineering Journal. 2022, 433,133802.(ESI高被引论文

[18] Zhang R.H.; Chen M.L.; Xiong Z.K.*, Yao G., Lai B.*, Highly efficient degradation of emerging contaminants by magnetic CuO@FexOy derived from natural mackinawite (FeS) in the presence of peroxymonosulfate. Chinese Chemical Letters. 2022, 33, 948-952. (ESI高被引论文

[19] Wei J.#, Xiong Z.K.#, Ao M.M., Guo Z., Zhang J.L., Lai B.*, Song Y.H.*, Selective degradation of sulfamethoxazole by N-doped iron-based carbon activated peroxymonosulfate: Collaboration of singlet oxygen and high-valent iron-oxo species, Separation and Purification Technology 2022, 297, 121379.

2021

[20] Li J.Y., Xiong Z.K.*, Yu Y.H., Wang X.H, Zhou H.Y., Huang B.K., Wu Z.L., Yu C.X., Chen T.T., Pan Z.C., Yao G., Lai B.*, Efficient degradation of carbamazepine by electro-Fenton system without any extra oxidant in the presence of molybdate: The role of slow release of iron ions, Applied Catalysis B: Environmental, 2021, 298, 120506.

[21] Xiong Z.K., Li J.Y., Li Y., Yuan Y., Jiang Y.N., Yao G., Lai B., Simultaneously enhanced degradation of N, N-dimethylacetamide and reduced formation of iron sludge by an efficient electrolysis catalyzed ozone process in the presence of dissolved silicate, Journal of Hazardous Materials. 2021, 406, 124725.

[22] Huang B.K., Xiong Z.K.*, Zhou P., Zhang H., Pan Z.C., Yao G., Lai B., Ultrafast degradation of contaminants in a trace cobalt(II) activated peroxymonosulfate process triggered through borate: Indispensable role of intermediate complex. Journal of Hazardous Materials. 2021, 424, 127641.

[23] Xiong Z.K., Jiang Y.N., Wu Z.L., Yao G., Lai B., Synthesis strategies and emerging mechanisms of metal-organic frameworks for sulfate radical-based advanced oxidation process: A review, Chemical Engineering Journal. 2021, 421, 127863. (ESI高被引论文/热点论文

[24] Huang B.K., Wu Z.L., Zhou H.Y., Li J.Y., Zhou C.Y.; Xiong Z.K.*, Pan Z.C., Yao G., Lai B.*, Recent advances in single-atom catalysts for advanced oxidation processes in water purification. Journal of Hazardous Materials. 2021, 412, 125253. (ESI高被引论文

[25] You J.J., Zhang C., Wu Z., Ao Z.M., Sun W., Xiong Z.K.*, Su S.J., Yao G., Lai B.*, N-doped graphite encapsulated metal nanoparticles catalyst for removal of bisphenol A via activation of peroxymonosulfate: A singlet oxygen-dominated oxidation process. Chemical Engineering Journal. 2021, 415, 128890. (ESI高被引论文)

2020年前

[26] Wu Z.L., Wang Y.P., Xiong Z.K.*, Ao Z.M., Pu S.Y., Yao G., Lai B.*, Core-shell magnetic Fe3O4@Zn/Co-ZIFs to activate peroxymonosulfate for highly efficient degradation of carbamazepine. Applied Catalysis B: Environmental. 2020, 277, 119136.(ESI高被引论文/热点论文)

[27] Hong Y.C., Zhou H.Y., Xiong Z.K.*, Liu Y., Yao G., Lai B.*, Heterogeneous activation of peroxymonosulfate by CoMgFe-LDO for degradation of carbamazepine: Efficiency, mechanism and degradation pathways. Chemical Engineering Journal. 2020, 391, 123604. (ESI高被引论文)

[28] Lai L.D., Zhou H.Y., Zhang H., Ao Z.M., Pan Z.C., Chen Q.X., Xiong Z.K.*, Yao G., Lai B.*, Activation of peroxydisulfate by natural titanomagnetite for atrazine removal via free radicals and high-valent iron-oxo species. Chemical Engineering Journal. 2020. 387, 124165.

[29] Wang X.H., Pu X.T., Yuan Y., Xiang Y.J., Zhang Y.L., Xiong Z.K.*, Yao G., Lai B.*, An old story with new insight into the structural transformation and radical production of micron-scale zero-valent iron on successive reactivities, Chinese Chemical Letters. 2020, 31, 2634-2640.

[30] Li Y.J., Li J., Pan Y., Xiong Z.K.*, Yao G., Xie R.Z., Lai B.*, Peroxymonosulfate activation on FeCo2S4 modified g-C3N4 (FeCo2S4-CN): Mechanism of singlet oxygen evolution for nonradical efficient degradation of sulfamethoxazole. Chemical Engineering Journal. 2019, 384, 123361.(ESI高被引论文/热点论文)

[31] Xiong Z.K., Zhang H., Zhang W.C., Lai B., Yao G., Removal of nitrophenols and their derivatives by chemical redox: A review. Chemical Engineering Journal. 2019, 359, 13-31.(ESI高被引论文)

[32] Xiong Z.K., Lai B., Yang P., Insight into a highly efficient electrolysis-ozone process for N,N-dimethylacetamide degradation: Quantitative analysis of the role of catalytic ozonation, Fenton-like and peroxone reactions. Water Research. 2018, 140, 12-23.

[33] Xiong Z.K., Lai B., Yuan Y., Cao J.Y., Yang P., Zhou Y.X., Degradation of p-nitrophenol (PNP) in aqueous solution by a micro-size Fe0/O3 process (mFe0/O3): Optimization, kinetic, performance and mechanism. Chemical Engineering Journal. 2016. 302, 137-145.

[34] Xiong Z.K., Lai B., Yang P., Zhou Y.X., Wang J.L., Fang S., Comparative study on the reactivity of Fe/Cu bimetallic particles and zero valent iron (ZVI) under different conditions of N2, air or without aeration. Journal of Hazardous Materials. 2015, 297, 261-268.(ESI高被引论文)

【专著、译著】

[1] Xiong Z.K., Liu Y., Zhou P., Zhang H., and Lai B.*, Heterogeneous Catalytic Ozonation over Supported Metal Oxides, Advanced Ozonation Processes for Water and Wastewater Treatment: Active Catalysts and Combined Technologies. (Royal Society of Chemistry. Invited Book Chapter 2) 2022.

[2] Zhou P., Liu Y., Xiong Z.K., Zhang H., Lai B.*, Zero Valent Iron-induced Fenton-like Oxidation Towards Water Treatment. Chemistry in the Environment, Emerging Nanotechnologies for Water Treatment. (Royal Society of Chemistry. Invited Book Chapter 12) 2021.

【任职与兼职】

新葡萄8883官网AMG环境科学与工程系副主任

中共新葡萄8883官网AMG研究生环境二支部书记

新葡萄8883官网AMG工会委员

四川省水安全与水污染控制工程技术研究中心副主任

新葡萄8883官网AMG教职工足球队队长

微信公众号“Environmental Advances”主编

国际水协会(IWA)中国青年委员会委员(IWA-YWP

国际水协会(IWA)会员

中国化学学会会员

Environmental Functional Materials编委

Chinese Chemical Letters青年编委

《工业水处理》青年编委

Water客座编辑

Environmental Science & Technology、Water Research、Applied Catalysis B: Environmental、Chemical Engineering Journal、Journal of Hazardous Materials等环境领域期刊审稿人

【获奖】

2023年全球前2%顶尖科学家

2023年Chinese Chemical Letters环境化学青年科学家奖

第二十四届中国专利优秀奖

2022年新葡萄8883官网AMG“挑战杯”大学生创业计划竞赛金奖

2022年四川省高校教职工足球比赛冠军

2021年第一届全国博士后创新创业大赛银奖

2021年全国创新创业优秀博士后

2021 Chinese Chemical Letters Excellent Papers Award

2020年中国环保产业协会科技进步一等奖

2020年首届川渝科技学术大会优秀论文二等奖

第七届新葡萄8883官网AMG“互联网+”大学生创新创业大赛银奖

2020年新葡萄8883官网AMG大学生创新创业与实践教育优秀指导教师

2020年成都市城市足球比赛冠军

2018年成都市城市足球比赛冠军

【代表性专利】

[1] Electrolysis-ozone-corrosion inhibitor/electrolysis-ozone-hydrogen peroxide-corrosion inhibitor coupling treatment method for toxic and refractory wastewater, US11548797B2

[2] Integrated device and method for treating toxic and refractory wastewater, US11834360B2

[3]电解-臭氧-缓蚀剂/电解-臭氧-双氧水-缓蚀剂耦合处理有毒难降解废水的方法,ZL201910970649.9

[4]一种电絮凝-催化臭氧/双氧水反应器,ZL202021013871.4

[5]一体化有毒难降解废水处理装置及处理方法,ZL202010821497.9

[6]一种医疗污水同步消杀除污处理一体化设备,ZL202023267050.6

[7]医疗污水处理装置,ZL202320032174.0

[8]一种污水深度处理一体化设备及污水处理工艺,ZL202310799237.X

[9]电活化过硫酸盐装置,ZL202321119349.8






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