姓 名:王 涛
职称/职务:高级实验师 、 博士、硕士生导师
专 业:化 学
研究方向:功能碳材料
出生年月:1979.10
联系方式:0991-8582966
邮 箱:renbility@163.com
办公室:4号楼1F 121室
个人经历。。。。。。。。。。。。。。。。。。。。。。。。。。。。
学习经历
2000/9-2004/7, 我校,应用化学, 学士
2004/9-2007/7, 我校,无机化学, 硕士研究生
2012/9-2015/6, 我校,物理化学, 博士研究生
工作经历
2007.09-2012.06,新疆医科大学,讲师
2015.09-今,我校理化测试中心, 高级实验师
主讲课程
本科生:《无机化学实验》
研究生:《仪器分析》
研究内容
1. 碳基功能材料
2. 超级电容器电极材料
3. 电催化材料
主持科研项目
1. 国家自然基金地区基金,铁基氧化物/氮掺杂石墨烯复合材料的制备及其电化学性能(21763023),2018-2021,38万元,主持
2. 自治区自然科学基金,氨基酸辅助制备Fe2O3/石墨烯复合物及其超级电容性能研究(2017D01C036),2017-2020,7万元,主持
3. 自治区高校科研计划,杂醇燃烧积碳的系统表征与功能化(XJEDU20161014),2017-2019,6万元,主持
奖励情况:
2016年获第十四届自治区自然科学优秀学术论文一等奖;
奖励名称:Hydrothermal synthesis of nitrogen-doped graphene hydrogels using amino acids with different acidities as doping agents;
获 奖 者: 王涛,王鲁香,吴冬玲;
授奖部门:中共新疆维吾尔自治区委员会组织部、新疆维吾尔自治区科学技术协会、新疆维吾尔自治区人力资源和社会保障厅。
代表性研究成果
1. A Novel Porous N- and S‑Self-Doped Carbon Derived from Chinese Rice Wine Lees as High-Performance Electrode Materials in a Supercapacitor, ACS Sustainable Chem. Eng. 2019, 7, 12138.
2. Hydrothermal synthesis of nitrogen-doped graphene hydrogels using amino acids with different acidities as doping agents, J. Mater. Chem. A, 2014, 2, 8352 .
3. Interaction between Nitrogen and Sulfur in Co-Doped Graphene and Synergetic Effect in Supercapacitor, Sci. Rep., 5, 2015, 1.
4. Significant enhancement of the oxygen reduction activity of selfheteroatom doped coal derived carbon through oxidative pretreatment , Electrochim. Acta., 312, 2019, 22.
5.Hydrothermal synthesis of nitrogen, sulfur co-doped graphene and its high performance in supercapacitor and oxygen reduction reaction, Microporous Mesoporous Mater.,2019, 19556.
6.Traditional earth-abundant coal as new energy materials to catalyze the oxygen reduction reaction in alkaline solution, Electrochim. Acta., 211, 2016, 568.
7. Co-Mn Hybrid Oxides Supported on N-Doped Graphene as Efficient Electrocatalysts for Reversible Oxygen Electrodes, J. Electrochem. Soc., 2018, 165, 9, H580.
8. One-step solvothermal synthesis of quasi-hexagonal Fe2O3nanoplates/ graphene composite as high performance electrode material for supercapacitor,Electrochim. Acta., 191, 2016, 275.
