<![CDATA[Ni <ce:inf loc='post'>0.85</ce:inf>Co <ce:inf loc='post'>0.15</ce:inf>WO <ce:inf loc='post'>4</ce:inf> nanosheet electrodes for supercapacitors with excellent electrical conductivity and capacitive performance]]>

Yunxia Huang; Chen Yan; Xing Shi; Wen Zhi; Zhimin Li; Yangxi Yan; Maolin Zhang; Guozhong Cao

首页> 外文期刊>Nano Energy >0.85Co 0.15WO 4 nanosheet electrodes for supercapacitors with excellent electrical conductivity and capacitive performance]]>

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0.85Co 0.15WO 4 nanosheet electrodes for supercapacitors with excellent electrical conductivity and capacitive performance]]>

机译：<！[CDATA [NI 0.85 CO 0.15 WO 4 用于超级电容器的纳米电极，具有优异的导电性和电容性能]]]>

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Monoclinic wolframite Ni1-xCoxWO4(x?=?0 and 0.15) nanosheets are synthesized successfully through chemical co-precipitation. The specific surface area increases appreciably with reduced pore radius when Co2+ions are incorporated into the NiWO4lattice. In comparison with NiWO4, the band gap of Ni0.85Co0.15WO4reduces with the electrical conductivity increased threefold. The electrochemical properties and the device performance of supercapacitors with Ni1-xCoxWO4as electrodes are characterized via the potentiostatic and galvanostatic cycle measurements, and electrochemical impedance spectroscopy (EIS). The Ni0.85Co0.15WO4electrode exhibits an obvious increase in specific capacitance, six-fold higher than that of NiWO4electrode at a current density of 0.5?A?g?1. Ni0.85Co0.15WO4electrode also shows excellent rate performance with ~78% capacitive retention while the current density is enhanced fivefold. The possible mechanism for the improved electrical conductivity and capacitive performance due to the incorporation of Co2+to NiWO4lattice has been discussed.

机译：通过化学共沉淀成功地合成单斜晶锭Ni1-Xcoxwo4（X？= 0和0.15）纳米晶片。当CO 2 +离子掺入NiWO 4晶格中时，比表面积显着增加。与NIWO4相比，具有电导率的Ni0.85Co0.15wo4的带隙增加了三倍。具有Ni1-Xcoxwo4as电极的超电容器的电化学性能和器件性能，通过肺恒流和电流循环测量和电化学阻抗光谱（EIS）表征。 Ni0.85Co0.15WO4电极表现出明显的比电容增加，比NIWO4电极高六倍，电流密度为0.5Ω··Δ1。 Ni0.85Co0.15WO4电极还显示出优异的速率性能，电容滞留〜78％，而电流密度增强了五倍。已经讨论了由于掺入CO2 +至NiWO4晶格而改善电导率和电容性能的可能机制。

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来源
《Nano Energy》 |2018年第2018期|共11页
作者
Yunxia Huang; Chen Yan; Xing Shi; Wen Zhi; Zhimin Li; Yangxi Yan; Maolin Zhang; Guozhong Cao;
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作者单位

School of Advanced Materials and Nanotechnology Xidian University;

School of Advanced Materials and Nanotechnology Xidian University;

School of Advanced Materials and Nanotechnology Xidian University;

School of Advanced Materials and Nanotechnology Xidian University;

School of Advanced Materials and Nanotechnology Xidian University;

School of Advanced Materials and Nanotechnology Xidian University;

School of Advanced Materials and Nanotechnology Xidian University;

Department of Materials Science and Engineering University of Washington;

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正文语种 eng
中图分类能源与动力工程;
关键词
Ni0.85Co0.15WO4nanosheet; Electrical conductivity; Wettability; Capacitive performance; Supercapacitors;

机译：Ni0.85Co0.15wo4nanosheet;电导率;润湿性;电容性能;超级电容器;

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0.85Co 0.15WO 4 nanosheet electrodes for supercapacitors with excellent electrical conductivity and capacitive performance]]>

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