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刘宗怀 ( 教授 )

Ph. D., Faculty and School of Engineering, the University of Tokushima, Japan

工学博士,日本德岛大学工学科

Post-doc. Fellow, National Institute of Advanced Industrial Science and Technology, Japan (2001)

JSPS Post-doc. Fellow, Japan (2002-2004)

日本产业技术综合研究所及日本学术振兴会博士后

Professor, Shaanxi Normal University (2004- )

教授,陕西师范大学

Tel: ++86-29-81530706

Fax: ++86-29-81530702

E-mail: zhliu@snnu.edu.cn

课题组网址:www.zonghuailiu.com

研究方向

(1)   Fabrication and delamination methods of layered inorganic materials.

(2)     Reassembling reaction technology of functional inorganic nanosheets.

(3)     Storage materials and technology (supercapacitor).

代表性成果

近年承担项目  

(1)     国家高技术发展863计划项目,微型大功率超级电容器用电极材料关键技术的研究(2007AA03Z248)98万元,2007.11-2011.12

(2)     国家自然科学基金项目,纳米层组装制备层状纳米功能材料及其超电容性能研究(20971082),33万元,2010.01-2012.12

(3)     国家自然科学基金资助项目,纳米层状电极材料的纳米层结构调控及电容性能研究(51172137),60万,2012.01-2015.12

(4)     国家自然科学基金项目,高比容量空洞结构电极材料的构筑及其超电容性能,(21471093)85万元,2015.01-2018.12

(5)     陕西省自然科学基金重点项目,层状纳米功能材料的制备及其超电容性能研究 (2011JZ001)10万元;2012.01-2013.12

近年授权专利

(1)      刘宗怀,唐秀花,大比表面积氧化锰空心纳米球的制备方法,ZL200810150715.X20108月。

(2)      刘宗怀,何学侠,二氧化锰空心球的制备方法,ZL200910023579.220115月。

(3)      刘宗怀,陈娜,二氧化锰空心多面体的制备方法,ZL201010187852.8201111月。

(4)      刘宗怀,朱刚,大比表面积层状氧化锰花球的制备方法,ZL201110063644.120134月。

(5)      刘宗怀,郭少华,均匀球形四氧化三锰的制备方法,ZL201110209944.620146月。

近年发表论文

(1)   Graphene/MnO2 Hybrid Film with High Capacitive Performance, Electrochimi. Acta, 154, (2015) 300.

(2)   RuO2/Graphene Hybrid Material for High Performance Electrochemical Capacitor, J. Power Sources, 248 (2014) 407.

(3)   Adsorption–Template Preparation of Polyanilines with Different Morphologies and Their Capacitance, Electrochimi. Acta, 145 (2014) 99.

(4)   High Performance Graphene/Manganese Oxide Hybrid Electrode with Flexible Holey Structure, Electrochimi. Acta, 129 (2014) 237.

(5)   Electrocapacitive Performance of Graphene/Co3O4 Hybrid Material Prepared by a Nanosheet Assembly Route, Electrochimi. Acta, 119 (2014) 184.

(6)   Topochemical Oxidation Preparation of Regular Hexagonal Manganese Oxide Nanoplates with Birnessite-Type Layered Structure, Cryst. Growth Des., 14 (2014) 5626.

(7)   Preparation and Capacitance Behavior of Manganese Oxide Hollow Structures with Different Morphologies via Template-Engaged Redox Etching, J. Power Sources, 239 (2013) 347.

(8)   Preparation of NiMn2O4 with Large Specific Surface Area from an Epoxide-driven Sol-Gel Process and Its Capacitance, Electrochimi. Acta, 87 (2013) 546.

(9)   Preparation and Capacitance of Graphene/Multiwall carbon Nanotubes/MnO2 Hybrid Material for High-Performance Asymmetrical Electrochemical Capacitor, Electrochimi. Acta, 89 (2013) 191.

(10) Graphene/VO2 Hybrid Material for High Performance Electrochemical Capacitor, Electrochimi. Acta, 112 (2013) 448.

(11) Preparation and Capacitance Performance of Ag-Graphene Based Nanocomposite, J. Power Sources, 201 (2012) 376.

(12) Graphene–MnO2 and Graphene Asymmetrical Electrochemical Capacitor with a High Energy Density in Aqueous Electrolyte, J. Power Sources, 196 (2011) 10782.

(13) Preparation and Capacitive Property of Manganese Oxide Nanobelt Bundles with Birnessite-Type Structure, J. Power Sources, 196 (2011) 855.

(14) Study on the Assembling Reaction of Graphite Oxide Nanosheets and Polycations, Carbon, 48 (2010) 2100.

(15) Fabrication of a Hybrid Graphene/Layered Double Hydroxide Material, Carbon, 48 (2010) 4391.

(16) Fabrication of MnO2-Pillared Layered Manganese Oxide through an Exfoliation/Reassembling and Oxidation Process, J. Power Sources, 189 (2009) 1278.

(17) Synthesis and Capacitive Property of Hierarchical Hollow Manganese Oxide Nanospheres with Large Specific Surface Area, J. Power Sources, 193 (2009) 939.

(18) Preparation of Ni2+-Fe3+ Layered Double Hydroxide Material with High Crystallinity and Well-defined Hexagonal Shapes, Chem. Mater. 20 (2008) 360.