姓名:汪德伟
性别:男
出生年月:1983-12
籍贯:陕西安康
职称:副教授
学位:博士
所属系部:新能源材料与器件
毕业院校:中科院兰州化物所
专业:材料科学与工程
电子邮箱:wangdewei@yeah.net
研究方向:碳材料在超电、锂电以及环境保护等领域的基础研究
学术兼职:J. Power Sources,,Electrochimica Acta, Nanotechnology,RSC Advances, Journal of Physics and Chemistry of Solids,Ionics,Materials Letters,Materials Research Express等20多个国际期刊审稿人。
主持科研项目:近年来作为主持人获批多项科研项目,包括国家自然基金两项(项目编号:21303257,51762001)、教育厅高等学校优秀青年教师培育基金 (项目编号:NGY2017148)、中科院西部之光“西部青年学者”A类项目 (项目编号:XAB2017AW07)、宁夏自然科学基金(项目编号:2018AAC03108)。
发表论文情况:
近年来以第一作者/通讯作者在Carbon, J. Power Sources, Chemical Engineering Journal, Inorg. Chem., Electrochimica Acta, J. Colloid Interface Sci., Applied Surface Science, CrystEngComm, Nanotechnology等著名国际期刊发表SCI论文二十余篇,影响因子> 5的论文9篇,有3篇入选 “most cited papers”,2篇论文引用超过100次,SCI引用970余次(Researcher ID: E-5026-2010, ORCID ID: 0000-0002-0357-3248)。入选国家民委中青年英才培养计划和宁夏青年科技人才托举工程。
[1]Wang Dewei,Pan Zhongmou,Chen Guoxian,Lu Zeming. Glycerol derived mesopore-enriched hierarchically carbon nanosheets as the cathode for ultrafast zinc ion hybrid supercapacitor applications[J]. Electrochimica Acta,2021,379:
[2]Wang Shuangyu,Hu Zhiwei,Pan Zhongmou,Wang Dewei. Mohr's salt assisted KOH activation strategy to customize S-doped hierarchical carbon frameworks enabling satisfactory rate performance of supercapacitors[J]. Journal of Alloys and Compounds,2021,876:
[3]Wang Dewei,Chen Guoxian,Pan Zhongmou. A robust magnesiothermic reduction combined self-activation strategy towards highly-curved carbon nanosheets for advanced zinc-ion hybrid supercapacitors applications[J]. Nanotechnology,2021,32(18):
[4]Dewei Wang,Zhongmou Pan,Zeming Lu. From starch to porous carbon nanosheets: Promising cathodes for high-performance aqueous Zn-ion hybrid supercapacitors[J]. Microporous and Mesoporous Materials,2020,306:
[4]Dewei Wang,Zeming Lu,Lang Xu. Microstructure design of porous nanocarbons for ultrahigh-energy and power density supercapacitors in ionic liquid electrolyte[J]. Journal of Materials Science,2020,55(23):
[5]Dewei Wang,Jiawang Nai,Lang Xu,Tao Sun. Gunpowder chemistry-assisted exfoliation approach for the synthesis of porous carbon nanosheets for high-performance ionic liquid based supercapacitors[J]. Journal of Energy Storage,2019,24:
[6]Dewei Wang,Lang Xu,Jiawang Nai,Tao Sun. A versatile Co-Activation strategy towards porous carbon nanosheets for high performance ionic liquid based supercapacitor applications[J]. Journal of Alloys and Compounds,2019,786:
[7]Dewei Wang,Lang Xu,Jiawang Nai,Xiaoxia Bai,Tao Sun. Morphology-controllable synthesis of nanocarbons and their application in advanced symmetric supercapacitor in ionic liquid electrolyte[J]. Applied Surface Science,2019,473:
[8]Dewei Wang,Yatong Wang,Wen Xu,Wenhui Xu. Tunable synthesis of nanocarbon architectures and their application in advanced symmetric supercapacitors[J]. Applied Surface Science,2018,443:
[9]Dewei Wang,Lang Xu,Yatong Wang,Wen Xu. Rational synthesis of porous carbon nanocages and their potential application in high rate supercapacitors[J]. Journal of Electroanalytical Chemistry,2018,815:
[10]Dewei Wang,Yatong Wang,Haiwei Liu,Wen Xu,Lang Xu. Unusual carbon nanomesh constructed by interconnected carbon nanocages for ionic liquid-based supercapacitor with superior rate capability[J]. Chemical Engineering Journal,2018,342: