基本信息：

男，副教授，博士，1983年生，中国海洋大学青年英才工程第二层次
联系方式：

huanleiwang@ouc.edu.cn (优先); huanleiwang@gmail.com
研究与学习工作简历：

2014/01-至今，中国海洋大学，材料科学与工程研究院，副教授

2011/08-2014/01，加拿大阿尔伯塔大学(University of Alberta)，化学与材料工程学院(Chemical & Materials Engineering)；加拿大纳米技术国家实验室(National Institute for Nanotechnology, National Research Council of Canada)，博士后

2006/09-2011/06，中国科学院上海硅酸盐研究所，高性能陶瓷与超微结构国家重点实验室，材料物理与化学专业，工学博士

2002/09-2006/06，中国地质大学（武汉），材料科学与化学工程学院，材料科学与工程专业，工学学士




研究方向：

(1)新型炭材料的设计合成

(2)纳米结构炭基复合材料的构筑

(3)电化学储能器件的应用研究




科研项目：

主持包括国家自然科学基金面上项目等在内的项目8项，参与科研项目3项，代表性项目如下——

2014-2016 中央高校青年教师科研专项基金40万，主持

2014-2016 山东省自然科学基金博士基金 7万，主持

2015-2017 国家自然科学基金青年科学基金 25万，主持

2015-2018 国家自然科学基金面上项目 85万，主持




学术成果：

长期从事炭基纳米材料的能量存储与转化的研究工作，在J. Am. Chem. Soc., Nano Letters, ACS Nano, Energy Environ. Sci., Adv. Mater., Nano Energy, Small, Nano Res., Carbon, J. Mater. Chem. A, J. Power Sources等国际权威期刊发表论文30余篇，论文被引用1500余次。长期担任Adv. Mater., Energy Environ. Sci., Adv. Funct. Mater., Nano Energy, Chem. Mater., Carbon, Sci. Rep.等国际知名期刊审稿人。申请中国专利一项，申请美国专利一项并实现成果转化。
招生信息：

课题组主要从事能源材料相关领域的基础应用研究，课题组欢迎有志向、勤奋、诚实、踏实的同学加入，我们共同营造活跃的科研氛围，并打造个性化的学习和工作环境！欢迎诚实努力、对化学/材料有兴趣的同学报考本课题组，一起攀登科学创新高峰!




学术论文(*标注通讯作者)：

2015年

(33)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. (2014-IF=10.325)

(32)Long Zhao, Wei Liu*, Shuang Liu, Jifei Wang, Huanlei Wang*, and Jiaxin Chen, “Fe₃O₄ nanoplates/carbon network synthesized by in situ pyrolysis of an organic-inorganic layered hybrid as a high-performance lithium-ion battery anode”, Journal of Materials Chemistry A, 3(27), 14210-14216, 2015. (2014-IF=7.443)

(31)Jia Ding, Zhi Li*, Huanlei Wang, Kai Cui, Alireza Kohandehghan, Xuehai Tan, Dimitre Karpuzov, and David Mitlin*, “Sodiation vs. lithiation phase transformations in a high rate-high stability SnO₂ in carbon nanocomposite”, Journal of Materials Chemistry A, 3(13), 7100-7111, 2015. (2014-IF=7.443)

(30)Xinhua Liu, Baofeng Wang*, Zilu Jin, Huanlei Wang, and Qigang Wang*, “Elastic ionogels with freeze-aligned pores exhibit enhanced electrochemical performances as anisotropic electrolytes of all-solid-state supercapacitors”, Journal of Materials Chemistry A, 3(30), 15408-15412, 2015. (2014-IF=7.443)

(29)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. (2014 IF=6.723)

(28) Jia Ding, Huanlei Wang, Zhi Li*, Kai Cui, Dimitre Karpuzov, Xuehai Tan, Alireza Kohandehghan, and David Mitlin*, “Peanut shell hybrid sodium ion capacitor with extreme energy-power rivals lithium ion capacitors”, Energy & Environmental Science, 8 (3), 941-955, 2015. (2014-IF=20.523)
2014年

(27)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.(2014 IF=13.592)

(26)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. (2014 IF=20.523)

(25)Huanlei Wang, Zhi Li*, and David Mitlin*, “Tailoring biomass derived carbon nanoarchitectures for high performance supercapacitors”, ChemElectroChem, 1, 332-337, 2014.

(24)Xinhua Liu, Dongbei Wu, Huanlei Wang, and Qigang Wang*, “Self-recovering tough gel electrolyte with adjustable supercapacitor performance”, Advanced Materials, 26, 4370-4375, 2014.(2014 IF=17.493)

(23)Zhanwei Xu, Huanlei Wang, Zhi Li*, Alireza Kohandehghan, Jia Ding, Jian Chen, Kai Cui, and David Mitlin*, “Sulfur refines MoO₂ distribution enabling improved lithium ion battery performance”, Journal of Physical Chemistry C, 118(32), 18387-18396, 2014. (2014 IF=4.772)

(22)Xinhua Liu, Zubiao Wen, Dongbei Wu*, Huanlei Wang, Jinhu Yang, and Qigang Wang*, “Tough BMIMCl-based ionogels exhibiting excellent and adjustable performance in high-temperature supercapacitors”, Journal of Materials Chemistry A, 2, 11569-11573, 2014. (2014-IF=7.443)
2013年

(21)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. (2014 IF=12.881)

(20)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. (2014 IF=20.523)

(19)Jia Ding, Huanlei Wang, Zhi Li*, Alireza Kohandehghan, Zhanwei Xu, Beniamin Zahiri, Xuehai Tan, Elmira Memarzadeh Lotfabad, Brian C. Olsen, and David Mitlin*, “Carbon nanosheet frameworks derived from peat moss as high capacity sodium ion battery anodes”, ACS Nano, 7 (12) , 11004-11015, 2013. (2014 IF=12.881)

(18)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. (2014 IF=6.196)

(17)Kaisheng Xia, Qiuming Gao*, Jinhua Jiang, and Huanlei Wang, “An unusual method to prepare a highly microporous carbon for hydrogen storage application”, Materials Letters, 100, 227-229, 2013. (2014 IF=2.489)

(16)Yang Xu, Elmira Memarzadeh Lotfabad, Huanlei Wang, Behdokht Farbod, Zhanwei Xu, Alireza Kohandehghan, and David Mitlin*, “Nanocrystalline anatase TiO₂: a new anode material for rechargeable sodium ion batteries”, Chemical Communications, 49 (79), 8973-8975, 2013. (2014 IF=6.834)




2012年

(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. (2014 IF=7.010)

(14)Juan Hu, Huanlei Wang, and Xiao Huang*, “Improved electrochemical performance of hierarchical porous carbon/polyaniline composites”, Electrochimica Acta, 74, 98-104, 2012. (2014 IF=4.504)

(13)Zhi Li*, Li Zhang*, Babak Shalchi Amirkhiz, Xuehai Tan, Zhanwei Xu, Huanlei Wang, Brian C. Olsen, Chris M. B. Holt, and David Mitlin, “Carbonized chicken eggshell membranes with 3D architectures as high-performance electrode materials for supercapacitors”, Advanced Energy Materials, 2 (4), 431-437, 2012.(2014 IF=16.146)

(12)Zhanwei Xu, Zhi Li*, Chris M. B. Holt, Xuehai Tan, Huanlei Wang, Babak Schachi Amirkhiz, Tyler Stephenson, and David Mitlin*, “Electrochemical supercapacitor electrodes from sponge-like graphene nanoarchitectures with ultrahigh power density”, Journal of Physical Chemistry Letters, 3 (20), 2928-2933, 2012. (2014 IF=7.458)




2011年以前

(11)Huanlei Wang, and Qiuming Gao*, “Template synthesis, activation and energy storage application of porous carbon materials”, Chemical Journal of Chinese Universities-Chinese, 32 (3), 462-470, 2011. (2014 IF=0.799)

(10)Huanlei Wang, Qiuming Gao*, and Lei Jiang*, “Facile approach to prepare nickel cobaltite nanowire materials for supercapacitor”, Small, 7 (17), 2454-2459, 2011. (2014 IF=8.368)

(9)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. (2014 IF=6.217)

(8)Huanlei Wang, Qiuming Gao*, and Juan Hu, “Preparation of porous doped carbons and the high performance in electrochemical capacitors”, Microporous and Mesoporous Materials, 131 (1-3), 89-96, 2010. (2014 IF=3.453)

(7)Juan Hu, Huanlei Wang, Qiuming Gao*, and Hongliang Guo, “Porous carbons prepared by using metal-organic framework as the precursor for supercapacitors”, Carbon, 48 (12), 3599-3606, 2010. (2014 IF=6.196)

(6)Shijiao Sun, Qiuming Gao*, Huanlei Wang, Jingkang Zhu, and Hongliang Guo, “Influence of textural parameters on the catalytic behavior for CO oxidation over ordered mesoporous Co₃O₄”, Applied Catalysis B-Environmental, 97 (1-2), 284-291, 2010. (2014 IF=7.435)

(5)Juan Hu, Qiuming Gao*, and Huanlei Wang, “Enhanced hydrogen storage of nanosized copper loaded active carbons treated under CO₂”, Journal of Nanoscience and Nanotechnology, 10 (11), 7648-7653, 2010. (2014 IF=1.556)

(4)Huan Xu, Qiuming Gao*, HongliangGuo and Huanlei Wang, “Hierarchical porous carbon obtained using the template of NaOH-treated zeolite β and its high performance in supercapacitor”, Microporous and Mesoporous Materials, 133 (1-3), 106-114, 2010. (2014 IF=3.453)

(3)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. (2014 IF=12.113)

(2)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. (2014 IF=6.196)

(1)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. (2014 IF=6.196)