王煥磊,男,博士學位,加拿大納米技術國家實驗室博士後,現任中國海洋大學材料科學與工程研究院教授。長期擔任Adv. Mater., Energy Environ. Sci., Adv. Funct. Mater., Nano Energy, Mater. Horiz., Chem. Mater., Carbon, Sci. Rep.等國際知名期刊審稿人。
基本介紹
- 中文名:王煥磊
- 國籍:中國
- 職業:教授
- 畢業院校:中國地質大學
研究學習簡歷,研究方向,科研項目,學術成果,代表性論文,
研究學習簡歷
2017/01-至今,中國海洋大學,材料科學與工程學院,教授
2014/01-2016/12,中國海洋大學,材料科學與工程學院,校青年英才計畫二層次,副教授
2011/08-2014/01,加拿大阿爾伯塔大學(University of Alberta),化學與材料工程學院(Chemical & Materials Engineering);加拿大納米技術國家實驗室(National Institute for Nanotechnology, National Research Council of Canada),博士後
2006/09-2011/06,中國科學院上海矽酸鹽研究所,高性能陶瓷與超微結構國家重點實驗室,材料物理與化學專業,工學博士
2002/09-2006/06,中國地質大學(武漢),材料科學與化學工程學院,材料科學與工程專業,工學學士
研究方向
(1)新型炭材料的設計合成
(2)納米結構炭基複合材料的構築
(3)電化學儲能器件的套用研究
科研項目
主持包括國家自然科學基金面上項目等在內的項目8項,參與科研項目3項,代表性項目如下——
2014-2016中央高校青年教師科研專項基金40萬,主持
2014-2016山東省自然科學基金博士基金7萬,主持
2015-2017國家自然科學基金青年科學基金25萬,主持
2015-2018國家自然科學基金面上項目85萬,主持
學術成果
長期從事炭基納米材料的能量存儲與轉化的研究工作,在J. Am. Chem. Soc., Nano Letters, ACS Nano, Energy Environ. Sci.,Adv. Mater.,NanoEnergy,Small, Nano Res., Carbon, J. Mater. Chem. A, J.Power Sources等國際權威期刊發表論文60餘篇,論文被引用3600餘次。申請中國發明專利6項,授權美國發明專利1項並實現成果轉化。
代表性論文
[1] Yongpeng Cui,Huanlei Wang*, Xiaonan Xu, Yan Lv, Jing Shi, Wei Liu, Shougang Chen, and Xin Wang, “Nitrogen-doped porous carbons derived from a natural polysaccharide for multiple energy storage devices”,Sustainable Energy & Fuels,2, 381-391,2018.
[2] Nan Mao,Huanlei Wang, Yang Sui, Yongpeng Cui, Jesse Pokrzywinski, Jing Shi, Wei Liu, Shougang Chen, Xin Wang, and David Mitlin, “Extreme high rate aqueous supercapacitor from doped carbon nanoflakes with huge surface area and mesopores at near commercial mass loading”,Nano Research, 10, 1767-1783,2017.
[3]Yan Lv,Huanlei Wang*, Xiaonan Xu, Jing Shi, Wei Liu, and Xin Wang, “Balanced mesoporous nickel cobaltite-graphene and doped carbon electrodes for high-performance asymmetric supercapacitor”,Chemical Engineering Journal,326, 401-410,2017.
[4] Yongpeng Cui,Huanlei Wang*, Nan Mao, Wenhua Yu, Jing Shi, Minghua Huang, Wei Liu, Shougang Chen, and Xin Wang, “Tuning the morphology and structure of nanocarbons with activating agents for ultrafast ionic liquid-based supercapacitors”,Journal of Power Sources,361, 182-194,2017.
[5] Yuemei Zhao, Yongpeng Cui, Jing Shi, Wei Liu, Zhicheng Shi*, Shougang Chen, Xin Wang, andHuanlei Wang*, “Two-dimensional biomass-derived carbon nanosheets and MnO/carbon electrodes for high-performance Li-ion capacitors”,Journal of Materials Chemistry A,5, 15243-15252,2017.
[6]Huanlei Wang, David Mitlin*, Jia Ding, Zhi Li* and Kai Cui, “Excellent energy-power characteristics from a hybrid sodium ion capacitor based on identical carbon nanosheets in both electrodes”,Journal of Materials Chemistry A,4, 5149-5158,2016.
[7] Wenhua Yu,Huanlei Wang*, Shuang Liu, Nan Mao, Xiao Liu, Jing Shi, Wei Liu, Shougang Chen, and Xin Wang, “N,O-codoped hierarchical porous carbons derived from algae for high-capacity supercapacitors and battery anodes”,Journal of Materials Chemistry A,4, 5973-5983,2016.
[8] Zhi Li, Jia Ding,Huanlei Wang*, Kai Cui, Tyler Stephenson, Dimitre Karpuzov, and David Mitlin*, “High rate SnO2-graphene dual aerogel anodes and their kinetics of lithiation and sodiation”,Nano Energy, 15, 369-378,2015.
[9]Huanlei Wang*, Nan Mao, Jing Shi, Qigang Wang, Wenhua Yu, and Xin Wang*, “Cobalt oxide-carbon nanosheet nanoarchitecture as an anode for high-performance lithium ion battery”,ACS Applied Materials & Interfaces, 7(4), 2882-2890,2015.
[10]Huanlei Wang, Zhanwei Xu, Zhi Li*, Kai Cui, Jia Ding, Alireza Kohandehghan, Xuehai Tan, Beniamin Zahiri, Brian C. Olsen, Chris M. B. Holt, and David Mitlin*,“Hybrid device employing three-dimentional arrays of MnO in carbon nanosheets bridges battery-supercapacitor divide”,Nano Letters, 14, 1987-1994,2014.
[11] Zhi Li, Zhanwei Xu,Huanlei Wang*, Jia Ding, Beniamin Zahiri, Chris M. B. Holt, Xuehai Tan, and David Mitlin*, “Colossal pseudocapacitance in a high functionality-high surface area carbon anode doubles the energy of an asymmetric supercapacitor”,Energy & Environmental Science, 7, 1708-1718,2014.
[12]Huanlei Wang, Zhanwei Xu, Alireza Kohandehghan, Zhi Li*, Kai Cui, Xuehai Tan, Tyler Stephenson, Cecil K. King’ondu, Chris M. B. Holt, Brian C. Olsen, Jin Kwon Tak, Don Harfield, Anthony O. Anyia, and David Mitlin*, “Interconnected carbon nanosheets derived from hemp for ultrafast supercapacitors with high energy”,ACS Nano, 7 (6), 5131-5141,2013.
[13] Zhi Li, Zhanwei Xu, Xuehai Tan,Huanlei Wang*, Chris M. B. Holt, Tyler Stephenson, Brian C. Olsen, and David Mitlin*, “Mesoporous nitrogen-rich carbons derived from protein for ultra-high capacity battery anodes and supercapacitors”,Energy & Environmental Science, 6 (3), 871-878,2013.
[14]Huanlei Wang, Zhi Li*, Jin Kwon Tak, Chris M. B. Holt, Xuehai Tan, Zhanwei Xu, Babak Shalchi Amirkhiz, Don Harfield, Anthony Anyia, Tyler Stephenson, and David Mitlin*, “Supercapacitors based on carbons with tuned porosity derived from paper pulp mill sludge biowaste”,Carbon, 57, 317-328,2013.
[15]Huanlei Wang, Chris M. B. Holt, Zhi Li*, Xuehai Tan, Babak Shalchi Amirkhiz, Zhanwei Xu, Brian C. Olsen, Tyler Stephenson, and David Mitlin*, “Graphene-nickel cobaltite nanocomposite asymmetrical supercapacitor with commercial level mass loading”,Nano Research, 5 (9), 605-617,2012.
[16]Huanlei Wang, Qiuming Gao*, and Lei Jiang*, “Facile approach to prepare nickel cobaltite nanowire materials for supercapacitor”,Small, 7 (17), 2454-2459,2011.
[17]Huanlei Wang, Qiuming Gao*, and Juan Hu, “Asymmetric capacitor based on superior porous Ni-Zn-Co oxide/hydroxide and carbon electrodes”,Journal of Power Sources, 195 (9), 3017-3024,2010.
[18]Huanlei Wang, Qiuming Gao*, and Juan Hu, “High hydrogen storage capacity of porous carbons prepared by using activated carbon”,Journal of the American Chemical Society, 131 (20), 7016-7022,2009.
[19]Huanlei Wang, Qiuming Gao*, Juan Hu, and Zhi Chen, “High performances of nanoporous carbon on cryogenic hydrogen storage and electrochemical capacitance”,Carbon, 47 (9), 2259-2268,2009.
[20]Huanlei Wang, and Qiuming Gao*, “Synthesis, characterization and energy-
related applications of carbide-derived carbons obtained by the chlorination of boron carbide”,Carbon, 47 (3), 820-828,2009.
