性别

女

学历/学位

研究生/博士

政治面貌

群众

职称

教授

行政职务

无

导师类别

硕士生导师

招生专业

环境科学、资源与环境

研究方向

水污染控制、环境友好材料开发

联系方式

联系地址

山东省青岛市市北区郑州路53号英国365官方网站四方校区

学习和工作经历：

(1) 2004-12 至 今, 英国365官方网站, 环境学院, 教授

(2) 2001-04 至 2004-09, 日本德岛大学, 功能材料, 博士

(3) 1999-04 至 2001-03, 日本德岛大学, 环境科学, 硕士

(4) 1988-09 至 2001-05, 四平轻工业职工中专, 化学工程, 讲师

(5) 1984-09 至 1988-07, 吉林师范大学, 化学教育, 学士

代表性科研/教研项目：

1、纵向项目

[1]基于新型“O-S”电荷转移机制设计构建高性能光解水催化剂ZnIn2S4-单/双/类金属-MxOy(M=Nb、Mo、W)及机理研究, 2024-01-01 至 2027-12-31, 50万元, 国家自然科学基金面上项目, 22379081, 在研, 参与

[2]碱金属、碱土金属化合物催化剂气相沉积纳米碳结构的机理研究项目批准号，国家自然科学基金面上项目（50972062）2010.01-2013.12，结题，参与

[3]碳膜连接自支撑碳纳米管阵列的制备研究，国家自然科学基金面上项目（51172114 ）2011.01 - 2014.12，结题，参与

[4]Z型光催化抗菌防污材料的设计及其性能研究，海洋腐蚀与防护重点实验室开发基金 2016.05 -2018.05，结题，主持

[5]氧空位修饰钛酸锶薄膜光电化学阴极保护机制研究，中国科学院海洋环境腐蚀与生物污损重点实验室开发基金 2016.01 -2017.12，结题，主持

2、横向项目

[1]青岛鑫嘉星电子科技股份有限公司 /   青岛鑫嘉星电子科技股份有限公司清洁生产咨询服务, 2020-02 至 2020-12,

[2]青岛市团岛污水处理厂/ 突发环境事件应急预案修订，2019-07 至 2019-12,

[3]国家自然科学基金项目‘g-C3N4纳米结构的优化与异质结体系的构筑对光电化学阴极保护的影响机理研究（批准号：41376126）’合作研究，2013-07 至 2016-12

代表性代表性论文、论著、专利：

1、主要论文

[1]   Y.Y. Bu, Z.W. Chen, T. Xie, W.B. Li, J.P. Ao, Fabrication of C3N4 ultrathin   flakes by mechanical grind method with enhanced photocatalysis and   photoelectrochemical performance, RSC ADVANCES, 6 (2016) 47813-47819.

[2]   Y.Y. Bu, Z.Y. Chen, C. Feng, W.B. Li, Study of the promotion mechanism of the   photocatalytic performance and stability of the Ag@AgCl/g-C3N4 composite   under visible light, RSC ADVANCES, 4 (2014) 38124-38132.

[3]   Y.Y. Bu, Z.Y. Chen, W.B. Li, Dramatically enhanced photocatalytic properties   of Ag-modified graphene-ZnO quasi-shell-core heterojunction composite   material, RSC ADVANCES, 3 (2013) 24118-24125.

[4]   Y.Y. Bu, Z.Y. Chen, W.B. Li, A ZnFe2O4-ZnO nanorod array p-n junction   composite and its photoelectrochemical performance, DALTON TRANSACTIONS, 42   (2013) 16272-16275.

[5]   Y.Y. Bu, Z.Y. Chen, W.B. Li, Using electrochemical methods to study the   promotion mechanism of the photoelectric conversion performance of   Ag-modified mesoporous g-C3N4 heterojunction material, APPLIED CATALYSIS   B-ENVIRONMENTAL, 144 (2014) 622-630.

[6]   Y.Y. Bu, Z.Y. Chen, W.B. Li, B.R. Hou, Highly Efficient Photocatalytic   Performance of Graphene-ZnO Quasi-Shell-Core Composite Material, ACS APPLIED   MATERIALS & INTERFACES, 5 (2013) 12361-12368.

[7]   Y.Y. Bu, Z.Y. Chen, W.B. Li, J.Q. Yu, High-Efficiency Photoelectrochemical   Properties by a Highly Crystalline CdS-Sensitized ZnO Nanorod Array, ACS   APPLIED MATERIALS & INTERFACES, 5 (2013) 5097-5104.

[8]   Y.Y. Bu, J. Tian, Z.W. Chen, Q. Zhang, W.B. Li, F.H. Tian, J.P. Ao,   Optimization of the Photo-Electrochemical Performance of Mo-Doped BiVO4   Photoanode by Controlling the Metal-Oxygen Bond State on (020) Facet,   ADVANCED MATERIALS INTERFACES, 4 (2017).

[9]   M.J. Cao, J. Tian, Y. Zhou, W.L. Liu, J. Dang, W.B. Li, J.R. Li, L. Wang, Co,   N co-doping controlled preparation of FeS/FeS2 heterojunction for efficient   overall water splitting, INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 84 (2024)   900-908.

[10]   Z.W. Chen, C. Feng, W.B. Li, Z.Y. Sun, J. Hou, X.B. Li, L.K. Xu, M.X. Sun,   Y.Y. Bu, Enhanced visible-light-driven photocatalytic activities of 0D/1D   heterojunction carbon quantum dot modified CdS nanowires, CHINESE JOURNAL OF   CATALYSIS, 39 (2018) 841-848.

[11]   Y.X. Dai, W.R. Liu, X.Y. Fu, N. Wang, Q.H. Bu, X.Y. Wang, C. Feng, Z.Y. Chen,   W.B. Li, Fabrication of a novel double Z-scheme WO3/Cd0.97Zn0.03S/CoSx   photocatalyst for facilitating photocatalytic hydrogen production, MATERIALS   LETTERS, 338 (2023).

[12]   X.Y. Deng, Q. Zhang, L. Wang, J. Han, Y.J. Wu, Z.Y. Sun, W.B. Li, X.B. Li,   L.K. Xu, C. Feng, Fabrication of Ag-modified porous ZnMgO nanorods with   enhanced photocatalytic performance, JOURNAL OF MATERIALS SCIENCE-MATERIALS   IN ELECTRONICS, 29 (2018) 16962-16970.

[13]   K. Fang, Z.W. Chen, Y.M. Wei, S. Fang, Z. Dong, Y.P. Zhang, W.B. Li, L. Wang,   Single site Co-S anchored on carbon nitride as a highly active cocatalyst for   photocatalytic hydrogen evolution, JOURNAL OF ALLOYS AND COMPOUNDS, 925   (2022).

[14]   C. Feng, Z.Y. Chen, J.P. Jing, M.M. Sun, J. Han, K. Fang, W.B. Li,   Synergistic effect of hierarchical structure and Z-scheme heterojunction   constructed by CdS nanoparticles and nanoflower-structured Co9S8 with   significantly enhanced photocatalytic hydrogen production performance,   JOURNAL OF PHOTOCHEMISTRY AND PHOTOBIOLOGY A-CHEMISTRY, 409 (2021).

[15]   C. Feng, Z.Y. Chen, J.P. Jing, M.M. Sun, J. Tian, J. Han, W.B. Li, L. Ma,   Synthesis of a novel three-dimensional sponge-like microporous CdS film with   high photoelectrochemical performance and stability, JOURNAL OF ELECTROANALYTICAL   CHEMISTRY, 874 (2020).

[16]   C. Feng, Z.Y. Chen, W.B. Li, F. Zhang, X.B. Li, L.K. Xu, M.X. Sun,   First-principle calculation of the electronic structures and optical   properties of the metallic and nonmetallic elements-doped ZnO on the basis of   photocatalysis, PHYSICA B-CONDENSED MATTER, 555 (2019) 53-60.

[17]   C. Feng, Z.Y. Chen, W.B. Li, J. Zhou, Y.Q. Sui, L.K. Xu, M.X. Sun,   Effectively enhanced photocatalytic degradation performance of the   Ag-modified porous ZnO nanorod photocatalyst, JOURNAL OF MATERIALS   SCIENCE-MATERIALS IN ELECTRONICS, 29 (2018) 9301-9311.

[18]   X.Y. Fu, Y.X. Qi, Y.N. Zhao, W.B. Li, Y.P. Zhang, Z-Scheme Transfer Path of   Charges in the BiVO4/Bi:ZnIn2S4-Co Photoanode for Photoelectrochemical Water   Splitting, ACS APPLIED ENERGY MATERIALS, 7 (2024) 11946-11953.

[19]   W.J. Gao, B.X. Qu, H.M. Yuan, J.M. Song, W.B. Li, Heavy metal mobility in   contaminated sediments under seawater acidification, MARINE POLLUTION   BULLETIN, 192 (2023).

[20]   J.P. Jing, Z.Y. Chen, Y.Y. Bu, M.M. Sun, W.Q. Zheng, W.B. Li, Significantly   enhanced photoelectrochemical cathodic protection performance of hydrogen   treated Cr-doped SrTiO3 by Cr<SUP>6+</SUP> reduction and oxygen   vacancy modification, ELECTROCHIMICA ACTA, 304 (2019) 386-395.

[21]   S.P. Kuang, W.Q. Zheng, Y.J. Gu, Z.Y. Sun, Z.M. Yang, W.B. Li, C. Feng,   Dual-functional ZnxMg1-xO solid solution nanolayer modified ZnO tussock-like   nanorods with improved photoelectrochemical anti-corrosion performance,   JOURNAL OF ELECTROANALYTICAL CHEMISTRY, 815 (2018) 175-182.

[22]   K. Li, X.B. Liu, X.Y. Wang, S.Q. Wu, W.B. Li, J.Q. Chi, L. Wang, Iron-based   heterojunction activate strong metal-support interaction enabling hydrogen   evolution reaction at ampere-level current density in seawater, NANO ENERGY,   123 (2024).

[23]   W.B. Li, K. Fang, Y.G. Zhang, Z.W. Chen, L. Wang, Y.Y. Bu, Fabrication of   1D/2D CdS/CoSx direct Z-scheme photocatalyst with enhanced photocatalytic   hydrogen evolution performance, INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 46   (2021) 9351-9359.

[24]   W.B. Li, C. Feng, S.Y. Dai, J.G. Yue, F.X. Hua, H. Hou, Fabrication of   sulfur-doped g-C3N4/Au/CdS Z-scheme photocatalyst to improve the   photocatalytic performance under visible light, APPLIED CATALYSIS   B-ENVIRONMENTAL, 168 (2015) 465-471.

[25]   W.B. Li, C. Feng, J.G. Yue, F.X. Hua, Y.Y. Bu, Photocatalytic Performance of   Hierarchical TiO2/Ag3PO4 Composite Under Visible-light Illumination, CHEMICAL   JOURNAL OF CHINESE UNIVERSITIES-CHINESE, 36 (2015) 1194-1201.

[26]   W.B. Li, J. Han, Y.J. Wu, Q.Y. Xiang, Y. Qiao, C. Feng, Z.Y. Chen, X.Y. Deng,   In-situ synthesis of CdS quantum dots on CdCO3 cubic structure for enhanced   photocatalytic hydrogen production performance, MATERIALS LETTERS, 255   (2019).

[27]   W.B. Li, F.X. Hua, J.G. Yue, J.W. Li, Ag@AgCl plasmon-induced sensitized ZnO   particle for high-efficiency photocatalytic property under visible light,   APPLIED SURFACE SCIENCE, 285 (2013) 490-497.

[28]   W.B. Li, F.X. Hua, T. Zhang, Y.P. Zhang, Q.Q. Xu, Used oxygen-doped C3N4 to   enhance the photocatalysis performance of O-C3N4/Ag@AgCl composite   photocatalyst, RSC ADVANCES, 6 (2016) 52067-52075.

[29]   W.B. Li, L. Wang, Q. Zhang, Z.Y. Chen, X.Y. Deng, C. Feng, L.K. Xu, M.X. Sun,   Fabrication of an ultrathin 2D/2D C3N4/MoS2 heterojunction photocatalyst with   enhanced photocatalytic performance, JOURNAL OF ALLOYS AND COMPOUNDS, 808   (2019).

[30]   W.B. Li, L.M. Wang, J. Zhou, N. Wang, X.Y. Fu, Y.B. Wang, Y.Y. Bu, Y.P.   Zhang, L. Wang, Facilitating photogenerated carrier transfer and water   oxidation kinetics of BiVO4 photoanode via novel Zn@Co3C functional layer,   CHEMICAL ENGINEERING JOURNAL, 472 (2023).

[31]   W.B. Li, J.G. Yue, Y.Y. Bu, Z.Y. Chen, Graphene-modified BiMo0.03V0.97O4   thin-film photoanode for enhanced photoelectrochemical water splitting   performance, RSC ADVANCES, 5 (2015) 77823-77830.

[32]   W.B. Li, J.G. Yue, F.X. Hua, C. Feng, Y.Y. Bu, Z.Y. Chen, Enhanced visible   light photocatalytic property of red phosphorus via surface roughening,   MATERIALS RESEARCH BULLETIN, 70 (2015) 13-19.

[33]   W.B. Li, Y.P. Zhang, Y.Y. Bu, Z.Y. Chen, One-pot synthesis of the BiVO4/BiOBr   heterojunction composite for enhanced photocatalytic performance, JOURNAL OF   ALLOYS AND COMPOUNDS, 680 (2016) 677-684.

[34]   W.B. Li, Y.P. Zhang, G.D. Tian, S.Y. Xie, Q.Q. Xu, L. Wang, J.M. Tian, Y.Y.   Bu, Fabrication of graphene-modified nano-sized red phosphorus for enhanced   photocatalytic performance, JOURNAL OF MOLECULAR CATALYSIS A-CHEMICAL, 423   (2016) 356-364.

[35]   X.M. Ma, Z. Ma, T. Liao, X.H. Liu, Y.P. Zhang, L.L. Li, W.B. Li, B.R. Hou,   Preparation of BiVO4/BiOC1 heterojunction photocatalyst by in-situ   transformation method for norfloxacin photocatalytic degradation, JOURNAL OF   ALLOYS AND COMPOUNDS, 702 (2017) 68-74.

[36]   J. Tian, Z.W. Chen, X.Y. Deng, Q. Sun, Z.Y. Sun, W.B. Li, Improving visible   light driving degradation of norfloxacin over core-shell hierarchical BiOCl   microspherical photocatalyst by synergistic effect of oxygen vacancy and   nanostructure, APPLIED SURFACE SCIENCE, 453 (2018) 373-382.

[37]   J. Tian, Z.Y. Chen, J.P. Jing, C. Feng, M.M. Sun, W.B. Li,   Photoelectrochemical cathodic protection of Cu2O/TiO2 p-n heterojunction   under visible light, JOURNAL OF OCEANOLOGY AND LIMNOLOGY, 38 (2020)   1517-1531.

[38]   J. Tian, Z.Y. Chen, J.P. Jing, C. Feng, M.M. Sun, W.B. Li, Enhanced   photocatalytic activity of BiOCl with regulated morphology and band structure   through controlling the adding amount of HCl, MATERIALS LETTERS, 272 (2020).

[39]   J. Tian, Z.Y. Chen, J.P. Jing, C. Feng, M.M. Sun, W.B. Li, Enhanced   photocatalytic performance of the MoS2/g-C3N4 heterojunction composite   prepared by vacuum freeze drying method, JOURNAL OF PHOTOCHEMISTRY AND   PHOTOBIOLOGY A-CHEMISTRY, 390 (2020).

[40]   J. Tian, F. Qian, Y.G. Zhang, W.B. Li, J.R. Li, S.Q. Chen, L. Wang, Z-Scheme   membrane CdZnS/TiO2 2 heterojunction photocatalyst for efficient   photocatalytic removal of Microcystis aeruginosa under simulated sunlight:   Adjustable suspended depth and flexible assembly, JOURNAL OF MATERIALS   SCIENCE & TECHNOLOGY, 217 (2025) 70-79.

[41]   J. Tian, Y.G. Zhang, F. Qian, M.J. Cao, Y.H. Cheng, J.R. Li, M.E. Tian, W.B.   Li, L. Wang, The design of novel swash plate photocatalytic reactor with   PAN/BiInOCl membrane photocatalyst for excellent RhB degradation, JOURNAL OF   ALLOYS AND COMPOUNDS, 968 (2023).

[42]   H.W. Wang, G.Q. Huang, Z.W. Chen, W.B. Li, Carbon Self-Doped Carbon Nitride   Nanosheets with Enhanced Visible-Light Photocatalytic Hydrogen Production,   CATALYSTS, 8 (2018).

[43]   H.W. Wang, J. Tian, W.B. Li, Electrochemical Deposition of MgO@ZnO Shell-Core   Nanorod Arrays Largely Enhances the Photoelectrochemical Water Splitting   Performance, CHEMELECTROCHEM, 4 (2017) 2019-2026.

[44]   H.W. Wang, W.Q. Zheng, W.B. Li, F.H. Tian, S.P. Kuang, Y.Y. Bu, J.P. Ao,   Control the energy band potential of ZnMgO solid solution with enhanced   photocatalytic hydrogen evolution capacity, APPLIED CATALYSIS   B-ENVIRONMENTAL, 217 (2017) 523-529.

[45]   L. Wang, J. Han, Y.J. Wu, Y.P. Zhang, Q. Zhang, X.J. Tan, Y.Z. Yang, W.B. Li,   Y.Y. Bu, J.P. Ao, Conductive polymer nanolayer modified one-dimensional   ZnO/CdSe photoanode with enhanced photoelectrochemical properties by in-situ   ions exchange method, CHEMICAL ENGINEERING JOURNAL, 368 (2019) 710-718.

[46]   R.L. Wang, T. Xie, Z.Y. Sun, T.F. Pu, W.B. Li, J.P. Ao, Graphene quantum dot   modified g-C3N4 for enhanced photocatalytic oxidation of ammonia performance,   RSC ADVANCES, 7 (2017) 51687-51694.

[47]   W.W. Wang, L. Wang, W.B. Li, C. Feng, R. Qiu, L.K. Xu, X.D. Cheng, G.Q. Shao,   Fabrication of a novel g-C3N4/Carbon nanotubes/Ag3PO4 Z-scheme photocatalyst   with enhanced photocatalytic performance, MATERIALS LETTERS, 234 (2019)   183-186.

[48]   X.D. Wang, Y.X. Dai, C. Tian, H.Z. Zhang, X.W. Li, W.L. Liu, W.B. Li, S.P.   Kuang, H.T. Tong, Boosted photocatalytic removal of Cr(VI) using MoS2   modified g-C3N4/ZnFe2O4 magnetic heterojunction composites, PROCESS SAFETY   AND ENVIRONMENTAL PROTECTION, 162 (2022) 72-82.

[49]   G.W. Xie, W. Sun, W.B. Li, Synthesis and catalytic properties of amorphous   Ni-Co-B alloy supported on carbon nanofibers, CATALYSIS COMMUNICATIONS, 10   (2008) 333-335.

[50]   Y.G. Zhang, J. Tian, D.T. Tian, W.B. Li, Z.Z. Liu, F.H. Tian, Y.Y. Bu, S.P.   Kuang, Regulation of band edge and specific surface area of BixInyOCl   microsphere for excellent photocatalytic performance, JOURNAL OF ALLOYS AND   COMPOUNDS, 867 (2021).

[51]   Y.P. Zhang, W.B. Li, Z.Y. Sun, Q. Zhang, L. Wang, Z.Y. Chen, In-situ   synthesis of heterostructured BiVO4/BiOBr core-shell hierarchical mesoporous   spindles with highly enhanced visible-light photocatalytic performance,   JOURNAL OF ALLOYS AND COMPOUNDS, 713 (2017) 78-86.

[52]   J. Zhou, L.M. Wang, N. Wang, X.Y. Fu, S. Fang, Y.P. Zhang, W.B. Li, L. Wang,   Bifunctional Co-TiO2 co-promoted bulk and interfacial charge transfer of   BiVO4 photoanodes for solar water oxidation, JOURNAL OF ALLOYS AND COMPOUNDS,   968 (2023).

2、授权专利

[1]李卫兵; 田国栋; 徐擎擎; 王琳; 田继明; 补钰煜 ; 一种纳米红磷/石墨烯复合光催化剂及其制备方法, 2019-5-31, 中国, ZL 201511035268.X.

[2]李卫兵; 补钰煜 ; 一种纳米花状WO3薄膜光阳极的制备方法, 2019-11-8, 中国, CN201510869047.6.

主要学术奖励/荣誉：

1、科研成果获奖

[1]异质结光催化体系的构建及作用机理, 青岛市科技局, 自然科学三等奖,   2019

2、教学成果获奖

[1]2012年 获英国365官方网站多媒体竞赛   一等奖

[2]2016年 获英国365官方网站   教学二等奖

[3]2017年 获英国365官方网站   教学二等奖