张维民

发布人:单琳耀 发布时间:2026-07-06

化学化工学院教师个人简历


姓名

张维民

出生年月

19772

政治面貌

群众

民族

职称

副教授

学历

研究生

学位

博士

联系方式

249521390(QQ)

电子邮箱

wmzhang@sdut.edu.cn

主要学习(工作)经历

2006.08-2010.12,澳大利亚Wollongong大学,化学系,博士

2010.10-2011.10,澳大利亚Wollongong大学,IPRI,博士后

2011.10-2013.07,澳大利亚Sydney大学,工程与信息技术学院,博士后

2013.08-2018.03,中聚电池研究院院长助理、技术顾问

2014.01-2018.03,上海交通大学,化学化工学院,助理研究员

2018.03-至今,   山东理工大学,化学化工学院,副教授

主要研究方向

1.电化学储能材料与工程化:/钠离子电池、燃料电池、铅酸电池、液流电池及电化学电容器的关键材料与器件技术;

2.电催化与界面电化学:电催化加氢、金属催化氧化偶联反应,微区扫描电化学原位技术;

3.理论计算与仿真设计:基于密度泛函理论的催化剂设计,化工过程多物理场仿真计算。

主讲课程

1. 本科生:《电化学原理》、《电化学测试技术》(英文)、《电化学工程设计》、《化工工艺学》、《化工热力学》、《应用电化学》

2. 硕士生:《电化学工程》、《化工热力学(II)

3. 博士生:《现代科学分析与技术》、《现代电化学工程》

4. 留学生:Modern Electrochemical Engineering》(英文)

荣誉奖励

1. 研究生教育教学成果奖二等奖

2. 国家优秀自费留学生

3. 上海交通大学年度考核优秀

4. 山东理工大学优秀教师

科研项目

主持国家自然科学基金面上项目和多项企业委托横向课题。

论著专利

代表性论文

[35] Ultralow-loading Pd nanoparticles on Co3O4 nanoarrays as highly active electrodes for efficient electrochemical dechlorination, Xinru Wang, Lei Jin, Wenqian Li, Yu-Shi He, Jinglin Mu, Weimin Zhang*, ACS Applied Nano Materials, 2026, 9 (23), 11111–11120.

[34] 硬碳负极材料的掺杂改性及其储钠性能研究,金磊,王欣茹,李文倩,王春婷,张维民,杨乃涛,储能科学与技术2026

[33] Integrated soft-hard carbon derived from hawthorn seeds as a high performance anode for sodium storage, Shangye Liu, Yongxiang Wang, Lei Jin, Xinru Wang, Chunting Wang, Yushi He and Weimin Zhang*, Journal of The Electrochemical Society, 2025, 172, 050538.

[32] Experimental and theoretical unraveling of the electrocatalytic hydrodechlorination of chlorinated phenol using Pd promoted by oxygen vacancies in TiO2 array, Zijing Pang, Degang Li, Xinru Wang, , Xin Huang, Yu-Shi He, Weimin Zhang*, Lipeng Zhang*, Separation and Purification Technology, 2024, 344, 127249.

[31] Regio- and stereo-selective synthesis of β-Phenylthio enamides via intramolecular 1,2-thiol migration,Yunqing Zhuang, Jin Zhang, Kai Yang, Gehua Bi, Xin Huang*, Weimin Zhang*, Organic Chemistry Frontier, 2024, 11 (9), 2442–2447.

[30] 镍铁锰酸钠层状氧化物的制备及性能研究,王亿周,胡晓梅,王永详,张维民,无机盐工业2024562),57-64.

[29] 普鲁士蓝镶嵌聚吡咯薄膜电极的制备及其电化学电容性质的研究,胡晓梅,王亿周,何雨石,张维民,现代化工2023,436),143-149.

[28] General and efficient synthesis of 4-sulfenylated oxazoles from β-keto sulfoxides and nitrilesJiateng Wang, Yunqing Zhuang, Bingxue Yu, Xiaofeng Wang, Gehua Bi, Xin Huang*, Weimin Zhang*, Journal of Organic Chemistry, 2022, 87, 14870-14878.

[27] Three-dimensional Functional Carbon nanotube Architecture as a Highly Efficient and Active Indirect Catalyst for Mineralization of 4-chlorophenol,Yu Feng, Yanan Wang, Zijin Pang, Yunqing Zhuang, Yu-Shi He, Weimin Zhang*,  Jinglin Mu, Xin Huang*, Separation and Purification Technology, 2022, 295, 121277

[26] Hard carbon microsphere with built-in electron transport channels as a high-performance anode for sodium-ion batteries, Di Zhang, Yizhou Wang, Zhimin Fang, Yu-Shi He, Weimin Zhang*, Zi-Feng Ma, Shuwen Kang*, The Journal of Electrochemical Society, 2022, 169, 050543.

[25] Constructing a catalytic reservoir using cobalt nanoparticles-MoS2@nitrogen doped carbon nanotubes on the separator to immobilize polysulfides and accelerate their conversion for lithium-sulfur batteries,Yuanyuan Gong, Yanan Wang, Zhimin Fang, Shuangshuang Zhao, Yu-shi He, Weimin Zhang*, Jinglin Mu, Lipeng Zhang*, Zi-Feng Ma, Chemical Engineering Journal, 2022, 446, 136943.

[24] Surficial charge state tuning of tungsten carbide for catalyzing alkaline hydrogen evolution reaction,Yanan Wang, Ting Wang, Shuguang Zhang, Xiuxia Meng, Yu-Shi He, Weimin Zhang*, Yucheng Huang, Naitao Yang*, International Journal of Hydrogen Energy, 2022, 47, 314-319.

[23] Copper-catalyzed direct sulfenoamination of saturated ketones via in situ formed enaminones,Jiateng Wang,   Yunqing Zhuang, Jie Zhao, Yusong Bi, Chunyan Li, Gehua Bi, Kai Yang, Xin Huang*, Weimin Zhang*, Organic & Biomolecular Chemistry, 2022, 20, 1749-1753.

[22] /界面调控测量在氢/氧反应电极中的研究进展,王亚楠,孟秀霞,张维民*,杨乃涛*化工进展, 2022, 41 (05), 2416-2428.

[21] Structural tuning of a flexible and porous polypyrrole film by a template-assisted method for enhanced capacitance for supercapacitor applications,Ting Wang, Yanan Wang, Di Zhang, Xiaomei Hu, Lipeng Zhang, Chen Zhao, Yu-Shi He, Weimin Zhang*, Naitao Yang*, Zi-Feng Ma, ACS Applied Materials & Interfaces, 2021, 13, 17726-17735.

[20] Modeling of hydrated transport through 2D MXene (Ti3C2Tx) membranes for water purification,Yun Jin, Yiyi Fan, Xiuxia Meng, Jinyong Li, Claudia Li, Jaka Sunarso, Naitao Yang*, Bo Meng, Weimin Zhang*, Journal of Membrane Science,2021, 631, 119346.

[19] Surface tuning to promote the electrocatalysis for oxygen evolution reaction: from metal-free to cobalt based carbon electrocatalysts, Yanan Wang, Shuguang Zhang, Xiuxia Meng, Ting Wang, Yu Feng, Weimin Zhang*, Yu-Shi He, Yucheng Huang,  Naitao Yang*, Zi-Feng Ma, ACS Applied Materials & Interfaces,2021, 13, 503-513.

[18] Mild strategy for generating rich void space for nano-Si/C composites to accommodate the large volume expansion during alloying/dealloying for lithium-ion batteries,Na Zhang, Yufei Zhang, Ting Wang, Wenqing Ge, Tiezhu Zhang, Lipeng Zhang*, Weimin Zhang*, Journal of Alloys and Compounds, 2020, 857, 157530

[17] Recent advances in the isolated single-atom catalysts for zinc air batteries: a focus review,Weimin Zhang, Yuqing Liu, Lipeng Zhang*, Jun Chen*, Nanomaterials, 2019, 9 (10), 1402.

[16] Scalable processing hollow tungsten carbide spherical superstructure as an enhanced electrocatalyst for hydrogen evolution reaction over a wide pH range, Yanan Wang, Lipeng Zhang, Xiuxia Meng, Liu Feng, Ting Wang, Weimin Zhang*, Naitao Yang*, Electrochimica Acta, 2019, 319, 775-782.

[15] A porous and interconnected polypyrrole film with high conductivity and ion accessibility as electrode for flexible all-solid-state supercapacitors,Jingwen Mao, Congcong Liu,Chi Cheng, Weimin Zhang*Xiao-Zhen Liao, Jiulin Wang, Linsen Li, Xiaowei Yang, Yu-Shi He*, Zi-Feng MaChemElectroChem,2019, 6, 5479-5485.

[14]Theoretical and experimental insights into the mechanism for gas separation through nanochannels in 2D laminar MXene membranes, Yun Jin, Yiyi Fan, Xiuxia Meng, Weimin Zhang*, Bo Meng, Naitao Yang,* Shaomin Liu,* Process, 2019, 7, 751.

[13] Enhancing performance of a lithium ion battery by formation of a thin compact oxide layer on an aluminium current collector, Shuwen Kang, Haiming Xie, Wei Zhai, Zi-Feng Ma, Rongshun Wang*, Weimin Zhang*, International Journal of electrochemical science,2015, 10, 2324-2335.

[12] Incorporation of rubidium cations into Li1.2Mn0.54Co0.13Ni0.13O2 layered oxide cathodes for improved cycling stability, Nan Li, Yu-Shi He, Xiaoping Wang, Weimin Zhang*, Zi-Feng Ma, Dongyun Zhang*, Electrochimica Acta, 2017, 231, 363-370.

[11] An active amorphous carbon material with Fe2C nanocrystals encapsulated as a high performance electrode for lithium-ion batteries,Haiying Che, Yu-Shi He, Xiao-Zhen Liao, Hui-Juan Zhang, Weimin Zhang*, Zi-Feng Ma*, ChemistrySelect, 2017, 2, 1854-1859.

[10] Effectively incorporating iron, nitrogen, and sulfur functionalities on carbon surface for a superior electrocatalyst toward oxygen reduction reaction,Weimin Zhang, Yu-Shi He, Shiming Zhang, Xiaowei Yang, Xianxia Yuan, Zi-Feng Ma, Electrochemistry Communications, 2017, 81, 34-37.

[9] A nitrogen-containing carbon film derived from vapor phase polymerized polypyrrole as a fast charging/discharging capability anode for lithium-ion batteries,Tao Yuan, Yu-Shi He, Weimin Zhang*, Zi-Feng Ma*, Chemical Communications,2016, 52, 112-115.

[8] Carbon coated SnO2 nanoparticles anchored on CNT as a superior anode material for lithium-ion batteries,Chunrong Ma, Weimin Zhang*, Yu-Shi He, Qiang Gong, Haiying Che, Zi-Feng Ma*, Nanoscale, 2016, 8, 4121-4126.

[7] Localized growth of Pt on Pd as a bimetallic electrocatalyst with enhanced catalytic activity and durability for proton exchange membrane fuel cell,Weimin Zhang*, Meng Wang, Jun Chen, Andrew T. Harris, Andrew I. Minett*, Electrochemistry Communications,2013, 34, 73-76.

[6] Integrated high-efficiency Pt/carbon nanotube arrays for PEM fuel cells,Weimin Zhang, Andrew I. Minett, Mei Gao, Jie Zhao, Joselito M. Razal, G. G. Wallace*, Tony Romeo, Jun Chen*, Advanced Energy Materials, 2011, 1, 671-677.

[5] Carbon nanotube architectures as catalyst supports for proton exchange membrane fuel cells, Weimin Zhang, Peter Sherrell, Andrew I. Minett, Joselito M. Razal, Jun Chen*, Energy & Environmental Science, 2010, 3, 1286-1293.

[4] Microwave-assisted synthesis of Pt/CNT nanocomposite electrocatalysts for PEM fuel cells,Weimin Zhang, Jun Chen*, Gerhard F. Swiegers, Zi-Feng Ma, Gordon G. Wallace*, Nanoscale, 2010, 2, 282-286.

[3] Novel ACNT arrays based MEA structure-nano-Pt loaded ACNT/Nafion/ACNT for fuel cell applications,Weimin Zhang, Jun Chen*, Gerhard F. Swiegers, Andrew I. Minett, Chee O. Too, Gordon G. Wallace*, Chemical Communications,2010, 46, 4824-4826.

[2] Microwave-assisted synthesis of Pt/CNT nanocomposite electrocatalysts for PEM fuel cells,Weimin Zhang, Jun Chen*, Gerhard F. Swiegers, Zi-Feng Ma, Gordon G. Wallace*, Nanoscale, 2010, 2, 282-286.

[1]Polypyrrole/Co-tetraphenylporphyrin modified carbon fibre paper as a fuel cell electrocatalyst of oxygen reduction,Weimin Zhang,Jun Chen*, Pawel Wagner, Gerhard F. Swiegers, Gordon G. Wallace*, Electrochemistry Communications,2008, 10, 519-522.


专利

[7] 一种硫酸亚铁钠正极材料的制备方法及其在制备钠离子电池中的应用,张维民,王永详,王亿周,ZL202310049308.4.

[6] 锂硫电池复合正极材料的制备,张维民,房志敏,张丽鹏,ZL202110836119.2.

[5] 一种新型燃料电池模具,张维民,王亚楠,杨乃涛,张丽鹏,202010473932.3.

[4]  CoNi-LDH/MXene格栅状阵列结构复合材料及其制备方法与应用,杨乃涛,孙苗,张维民,孟秀霞,周正伟,王旭颖, CN202210855967.2.

[3] Ni5FeCuCrS3/MXene/NF电催化复合电极及其制备方法和应用, 杨乃涛, 孙苗,孟秀霞,张维民, ZL202311438131.3.

[2]/纳米碳化二铁复合材料、复合电极及制备方法和应用, 车海英,张维民,马紫峰,CN201610649382.X.

[1]一种碳化钨催化剂及其制备方法和专用碳化炉, 马淳安, 李国华, 张维民. ZL200410067120.x.