期刊
SMALL
卷 15, 期 19, 页码 -出版社
WILEY-V C H VERLAG GMBH
DOI: 10.1002/smll.201901145
关键词
energy density; metal pyrophosphates; solid-state supercapacitor; 2D materials
类别
资金
- National Research Foundation of Korea [NRF-2015M3A7B 4050 424]
To obtain a supercapacitor with a remarkable specific capacitance and rate performance, a cogent design and synthesis of the electrode material containing abundant active sites is necessary. In present work, a scalable strategy is developed for preparing 2D-on-2D nanostructures for high-energy solid-state asymmetric supercapacitors (ASCs). The self-assembled vertically aligned microsheet-structured 2D nickel pyrophosphate (Ni2P2O7) is decorated with amorphous bimetallic nickel cobalt hydroxide (NiCo-OH) to form a 2D-on-2D nanostructure arrays electrode. The resulting Ni2P2O7/NiCo-OH 2D-on-2D array electrode exhibits peak specific capacity of 281 mA hg(-1) (4.3 F cm(-2)), excellent rate capacity, and cycling stability over 10 000 charge-discharge cycles in the positive potential range. The excellent electrochemical features can be attributed to the high electrical conductivity and 2D layered structure of Ni2P2O7 along with the Faradic capacitance of the amorphous NiCo-OH nanosheets. The constructed Ni2P2O7/NiCo-OH//activated carbon based solid-state ASC cell operates in a high voltage window of 1.8 V with an energy density of 78 Wh kg(-1) (1.065 mWh cm(-3)) and extraordinary cyclic stability over 10 000 charge-discharge cycles with excellent energy efficiency (75%-80%) over all current densities. The excellent electrochemical performance of the prepared electrode and solid-state ASC device offers a favorable and scalable pathway for developing advanced electrodes.
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