标题:Hierarchical MoS2-rGO nanosheets with high MoS2 loading with enhanced electro-catalytic performance作者:Zhou, Jing; Xiao, Han; Zhou, Bowen; Huang, Feifan; Zhou, Shoubin; Xiao,Wei; Wang, Dihua
来源出版物:APPLIED SURFACE SCIENCE 卷:358页:152-158 DOI:10.1016/j.apsusc.2015.07.187 A 出版年:DEC 15 2015
摘要:Incorporation high-loading redox-active materials with small amounts of graphene is a general protocol to achieve high-performance catalysts. Herein, hierarchical MoS2-reduced graphene oxide nanosheet (denoted as MoS2-rGO nanosheets) hybrids with a loading of MoS2 as high as 94 wt% are synthesized. The obtained hierarchical MoS2-rGO nanosheets simultaneously integrate the structural and compositional design rationales for high-efficiency and durable electrocatalysts based on high weight ratio of MoS2 in hybrid composite, highly stable/conducting rGO, well-dispersed two-dimensional ultrathin MoS2-nanosheets, more exposed edge sites and micro/nano hierarchical structure. When evaluated as electrocatalysts for hydrogen evolution and oxygen reduction reactions, the hierarchical MoS2-rGO nanosheets demonstrates enhanced activity and excellent stability, promising their applications in MoS2 based electrochemical, photo-catalytic and photo-elecrocatalytic cells.
入藏号:WOS:000366220400018
文献类型:Article
语种:English
作者关键词:Hierarchical nanostructures, Nanosheets, High-loading MoS2, Graphene, Hydrogen evolution, Oxygen reduction
扩展关键词:LITHIUM-ION BATTERIES; HYDROGEN EVOLUTION REACTION; ALKALINE WATER ELECTROLYSIS; SENSITIZED SOLAR-CELLS; ASSISTED SYNTHESIS; ELECTROCHEMICAL PERFORMANCE; STORAGE PROPERTIES; HYBRID MATERIALS; ANODE MATERIALS; GRAPHENE
通讯作者地址:Xiao, Wei; Wuhan Univ, Sch Resource & Environm Sci, Wuhan *430072*, Peoples R China.
电子邮件地址:gabrielxiao@whu.edu.cn; wangdh@whu.edu.cn
地址:
[Zhou, Jing; Xiao, Han; Zhou, Bowen; Huang, Feifan; Xiao, Wei; Wang, Dihua]Wuhan Univ, Sch Resource & Environm Sci, Wuhan *430072*, Peoples R China.
[Zhou, Shoubin; Xiao, Wei; Wang, Dihua] Jiangsu Huafu Storage New Technol Dev Co Ltd, Gaoyou 225600, Peoples R China.
研究方向:Chemistry; Materials Science; Physics
ISSN:0169-4332
eISSN:1873-5584
影响因子(2014):2.711
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