系别:化学系
职称:教授,博士生导师
院内行政职务:
电话:0371-23881589
邮箱:liushanhu@163.com
个人简介:
刘山虎, 1977年出生,河南省清丰县人,主要从事超浸润界面的组装及应用、电催化能源材料(产氢催化,氮还原催化)相关研究。主持完成国家自然科学基金、日本JSPS科研奖励基金、中国石油天然气集团公司委托技术项目、河南省科技攻关项目、河南省教师教育课程改革研究项目等,作为主要成员参与完成中日重大国际(地区)合作基金、日本文部省基础研究重大项目基金、信越化学工业株式会社委托基金等项目。曾获河南省科技进步奖三等奖,河南大学师德先进个人,河南大学教学优秀奖,河南大学科研优秀奖。发表论文80余篇,(ESI高被引4篇),被引5300次,H-index 43。
研究工作经历
1996-2000 河南师范大学化学与环境科学学院本科
2004-2007 河南师范大学化学与环境科学学院硕士
2007-2010 南京大学化学化工学院博士
2010-至今 河南大学化学化工学院工作
2011-2012 日本神奈川科学技术研究院研究员
2012-2014 日本学术振兴会JSPS外国人特聘研究员
2014-2015 日本东京理科大学综合研究机构客座准教授
教学培养
承担本科生《太阳城娱乐》、《太阳城娱乐》、《太阳城娱乐》、《太阳城娱乐》,以及研究生《太阳城娱乐》、《太阳城娱乐》、《亚洲最大信誉品牌的大型娱乐平台》等课程。
主持项目
1. Fe3O4/金量子点双功能材料的组装与光电免疫传感,国家自然科学基金,2012.1-2014.12
2. Organic-titania monolith for self-cleaning coating with photoinduced self-healing ability, JSPS科研奖励基金,2013.1-2014.12
3. Durable and Scalable Superhydrophobic Membranes for Efficient Oil-Water Separation 国家自然科学基金外国人青年基金(Dr. Sanjay),2020.1-2020.12
4. 基于二氧化钛纳米结构的高效室内空气净化系统,河南省科技攻关计划项目,2017.1-2018.6
5. 二氧化钛基复合材料的仿生合成及室内空气净化技术开发,科技部外专引智项目,2018.1-2021.12
6. 光催化自清洁涂层的仿生设计及光诱导自修复性能研究,河南省科技攻关计划项目,2021.1-2022.6
7. 亲油耐磨润滑材料及部件试制,中国石油天然气集团公司委托项目,2020.1-2021.3
8. 亲油疏水多孔材料关键技术转化,河南大学一流学科理工类培育项目(重大成果转化类),2020.1-2021.12
9. 疏水界面抗冰涂层研究,河南大学2019交叉学科培育计划项目,2020.1-2020.12
10. 电网及通讯设备表面抗冰涂层关键技术开发,企业委托,2022.1-2022.9
11. 青少年科普活动成效及提质增效工程,河南省科协项目,2021
12. 无机及分析化学,河南大学课程思政样板课程建设,2022
13. 小学低年级《太阳城娱乐》课程的教学改革与实践,河南省教师教育课程改革项目(2018-JSJYYB-006),2018.1-2018.12
14. 基于中国古代科技史料的中学化学课程思政实施路径与应用研究,河南省教师教育课程改革项目,2023.1-2023.12
发表论文
1. CoS2 nanodots anchored into heteroatom-doped carbon layer via a biomimetic strategy: Boosting the oxygen evolution and supercapacitor performance, Journal of Power Sources, 2019, 436, 226862;
2. Hierarchical ZnS@ C@ MoS2 core-shell nanostructures as efficient hydrogen evolution electrocatalyst for alkaline water electrolysis, International Journal of Hydrogen Energy, 2019, 44 (47), 25310-25318
3. Self–cleaning superhydrophobic coatings: Potential industrial applications, Progress in Organic Coatings, 2019, 128, 52-58 (高被引)
4. Recent advances in durability of superhydrophobic self-cleaning technology: a critical review, Progress in Organic Coatings, 2020, 138, 105381 (高被引)
5. Recent developments in air-trapped superhydrophobic and liquid-infused slippery surfaces for anti-icing application, Progress in Organic Coatings, 2020, 137, 105373
6. Spatial compartmentalization of cobalt phosphide in P-doped dual carbon shells for efficient alkaline overall water splitting, Inorganic Chemistry, 2020, 59 (3), 1996;
7. Ti 3+ self-doped TiO 2− x nanowires for efficient electrocatalytic N 2 reduction to NH 3, Chemical Communications, 2020, 56 (7), 1074; (高被引)
8. Ultrathin WS2 nanosheets vertically aligned on TiO2 nanobelts as efficient alkaline hydrogen evolution electrocatalyst, International Journal of Hydrogen Energy, 2020, 45 (3), 1697;
9. Ultrathin VS2 nanosheets vertically aligned on NiCo2S4@ C3N4 hybrid for asymmetric supercapacitor and alkaline hydrogen evolution reaction, Applied Surface Science, 2020, 527, 146856
10. Boosting the electrochemical performance of MoS2 nanospheres-N-doped-GQDs-rGO three-dimensional nanostructure for energy storage and conversion applications, Applied Surface Science, 2020, 504, 144441;
11. Hydrothermally/electrochemically decorated FeSe on Ni-foam electrode: An efficient bifunctional electrocatalysts for overall water splitting in an alkaline medium, International Journal of Hydrogen Energy, 2020, 45 (51), 27182-27192
12. Ultrathin MoS2 nanosheets in situ grown on rich defective Ni0. 96S as heterojunction bifunctional electrocatalysts for alkaline water electrolysis, International Journal of Hydrogen Energy, 2020, 45, 29929;
13. Electrochemical nitrogen reduction: recent progress and prospects, Chemical Communications, 2021,57, 7335-7349; (高被引)
14. Investigating the effect of Nd3+ dopant and the formation of g-C3N4/BiOI heterostructure on the microstructural, optical and photoelectrocatalytic properties of g-C3N4, Applied Surface Science, 2021, 561, 150082;
15. Enhanced photo-electrocatalytic performance of the nano heterostructures based on Pr3+ modified g-C3N4 and BiOI, International Journal of Hydrogen Energy, 2022, 47 (77), 32903;
16. Open and porous NiS2 nanowrinkles grown on non-stoichiometric MoOx nanorods for high-performance alkaline water electrolysis and supercapacitor, International Journal of Hydrogen Energy, 2022, 47 (32), 14404;
17. (Fe, Ni) S2@ MoS2/NiS2 hollow heterostructure nanocubes for high-performance alkaline water electrolysis, International Journal of Hydrogen Energy, 2022, 47 (21), 11143;
18. A Special Issue Dedicated to the 110th Anniversary of Henan University, Exploration, 2022, 2 (4), 20220101
19. Biomaterial based fabrication of superhydrophobic textiles–A review, Materials Today Chemistry, 2022, 24, 100940
20.本草古籍中化学教学资源的开发与利用[J]. 化学教育,2022,43(19):77-82.
授权专利
1. 核壳结构ZnS@C@MoS2催化剂的制备方法及应用 2019.6.12,ZL2019 1 0507485.6
2. 一种便携式空气净化器 2018.4.20 ZL 2018 2 0564833.4
3. 车载太阳能自驱动空气净化器 2018.4.20 ZL2018 2 0564752.4
4. 一种水质重金属去除装置 2018.9.26,ZL2018 2 1569928.1
专著(章节)
1. Elsevier出版社: Superhydrophobic Polymer Coatings:CHAPTER15 Superhydrophobic surfaces for oil-water separation, 2019,ISBN 978-0-12-816671-0
2. Elsevier出版社: Handbook of Greener Synthesis of Nanomaterials and Compounds, CHAPTER 25, Virus-assisted biological methods for greener synthesis of nanomaterials,, 2021, ISBN: 978-0-12-821938-6