职称/学历:实验师/硕士研究生
个人简介
王俊海,男,主要从物理化学实验、实验室安全教育等教学工作。
研究方向
基于纳米材料的化学传感器和电化学能源转换与储存技术研究
主持教科研项目
1. 应用型本科化学化工实验室开放模式的探索及实践(全讯600cc大白菜一般,2012jyy003)
2. 多壳层金属氧化物微纳空心结构制备及其气敏性能研究(全讯600cc大白菜重点,2013RC014)
3. 多面体ZnSnO3 基车载乙醇传感器构筑及其特性研究(教育厅一般,KJ2018B14)
4. 空气中三苯含量的测定虚拟仿真实验教学项目(教育厅,2018xfsyxm007)
5. 基于VR技术的工作场所环境中三苯含量测定(教育部高教司,201802066104)
6. 化学化工虚拟仿真实践教学平台建设(教育部高教司,201802085048)
7. 地方应用型本科院校化学化工实验室HSE安全管理体系构建探索与实践(全讯600cc大白菜重点,2020jyz011)
8. 产品检(试)验技术服务(HX2017106、HX2018078、HX2019114、HX2019115、HX2019191、HX2020145、HX2020183、HX2021162、HX2022250等)
9.PVC焊缝密封胶VOC排放改进的技术服务(HX2021162)
主要荣誉获奖
1. 2012-2013学年全讯600cc大白菜优秀班主任
2. 2013年全讯600cc大白菜优秀教学管理工作者
3. 2016年“优秀共产党员”荣誉称号
4. 2016年全讯600cc大白菜首届教师实践技能大赛二等奖
5. 2023年安徽省第一届高校实验室安全技能大赛三等奖
发表论文
1.Wang,Junhai, Ge,Xiutao, Chen, Yuping, Preparation and Gas sensing Properties of SnO2 Hollow Nanostructures;Materials Science and Engineering 422 (2018).
2. Junhai Wang, Polypyrrole-coated hollow zeolite microcake as sulfur host for lithium-sulfur batteries with improved electrochemical behaviors, Journal of Electroanalytical Chemistry, 2020, 877, 114565.
3. Junhai Wang, Preparation of cobalt sulfide@reduced graphene oxide nanocomposites with outstanding electrochemical behavior for lithium-ion batteries, RSC Advances, 2020, 10(23), 13543-13551.
4. Junhai Wang, A facile in‒situ synthesis of ZIF 8 nanoparticles anchored on reduced graphene oxide as a sulfur host for Li S batteries, Materials Research Bulletin, 2021, 133, 111061.
5. Nannan Wang, Jun Wang*, Junhai Wang*, Yong Hong, Jiarui Huang*, Rice paste derived microporous carbon for advanced lithium–sulfur batteries, Journal of Electroanalytical Chemistry, 2021, 880, 114900.
6. Nannan Wang, Jun Wang, Jingjuan Zhao, Junhai Wang*, Junqi Pan, Jiarui Huang*, Synthesis of porous-carbon@reduced graphene oxide with superior electrochemical behaviors for lithium-sulfur batteries, Journal of Alloys and Compounds, 2021, 851, 156832.
7. Haibo Ren, Junhai Wang*, Yaxian Cao, Wei Luo, Yufeng Sun*, Nickel sulfide nanoparticle anchored reduced graphene oxide with improved lithium storage properties, Materials Research Bulletin, 2021, 133, 111047.
8.王俊海,胡颖兰,邢东风,杨梦圆,严斌斌,TiO2/ZnO异相结纳米纤维的光催化性能研究,佳木斯大学学报,2020,5(38),100-108
9. 王俊海,胡颖兰,邢东风,杨梦圆,严斌斌,微波辅助合成多面体锡酸锌及其气敏研究,蚌埠学院学报,2021,2(10),6-11
10. Jingjuan Zhao, Junhai Wang, Guozhi Wu*, Myunghee Kim, Xinjie Song*, Jiarui Huang*, Novel method for preparation of metal-sulfide@reduced-graphene-oxide with high energy storage performance, Materials Chemistry and Physics, 2020, 240: 122132.
11. Lvlv Gao, Yaxian Cao, Jun Wang, Haibo Ren*, Junhai Wang, Jiarui Huang*, Construction of polypyrrole coated hollow cobalt manganate nanocages as an effective sulfur host for lithium-sulfur batteries, Ceramics International, 2020, 46: 18224-18233.
12. Junhai Wang, Jiandong Zheng*, Liping Gao, Jie Yang, Jiarui Huang*, Sang Woo Joo*, WO2 nanoparticle anchored hollow carbon spheres enhanced performance of lithium-sulfur battery, Journal of Electroanalytical Chemistry, 2023, 942: 117590
13. Junhai Wang, Jiandong Zheng*, Liping Gao, Qingshan Dai, Sang Woo Joo*, Jiarui Huang*, Nitrogen-doped carbon-coated hollow SnS2/NiS microflowers for high performance lithium storage, Frontiers of Materials Science, 2023, 17(3): 230654
14. Junhai Wang, Jiandong Zheng*, Liping Gao, Chunyu Meng, Jiarui Huang*, Sang Woo Joo*, N-doped carbon-coated tin dioxide nanotubes for high-performance Li-ion battery, Frontiers of Materials Science
发明专利
1. 一种管状二氧化锡、碳包覆管状二氧化锡纳米复合材料的制备方法及应用, ZL202010668721.5;
2.一种碳包覆二氧化锡-硫化锌空心立方块纳米复合材料及制备方法和锂离子电池负极与电池,ZL202010668584.5。
邮 箱:wjh166@163.com
终审人:骆宝明