Electroless fabrication and supercapacitor performance of CNT@NiO-nanosheet composite nanotubes

Yu W.; Li B. Q.; Ding S. J.

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Electroless fabrication and supercapacitor performance of CNT@NiO-nanosheet composite nanotubes

机译：CNT @ NiO-纳米片复合纳米管的化学制备及超级电容器性能

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Composite nanostructures consisting of porous NiO nanosheets on carbon nanotubes (CNTs) are fabricated using a facile and low-cost electroless plating method. The CNTs, modified by a polymer, are adopted as the template upon which porous Ni nanosheets are grown using electroless plating. This is followed by removal of the polymer layer and oxidation of the Ni by controlled thermal annealing. The effect of reductant concentration on the morphology of the NiO nanosheets is studied. The electrochemical characteristics of the nanostructures are measured using chronopotentiometry. Experimental measurements show that the NiO nanosheet covered CNT composite nanostructures exhibit a relatively high specific capacitance of 1177 F g(-1) at a discharge current density of 2 A g(-1), while retaining 89.2% of its initial capacitance at a current density of 2 A g(-1) after 1000 cycles.

机译：碳纳米管（CNT）上的多孔NiO纳米片组成的复合纳米结构是使用一种便捷且低成本的化学镀方法制造的。采用由聚合物改性的CNT作为模板，使用化学镀在其上生长多孔Ni纳米片。随后通过控制的热退火去除聚合物层并氧化Ni。研究了还原剂浓度对NiO纳米片形态的影响。使用计时电位法测量纳米结构的电化学特性。实验测量表明，NiO纳米片覆盖的CNT复合纳米结构在2 A g（-1）的放电电流密度下显示出相对较高的比电容1177 F g（-1），同时在电流下保留其初始电容的89.2％ 1000次循环后密度为2 A g（-1）。

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《Nanotechnology》 |2016年第7期|共8页
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Yu W.; Li B. Q.; Ding S. J.;
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正文语种 eng
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electroless deposition; carbon nanotube; nickel; nanosheet; supercapacitor;

机译：化学沉积;碳纳米管;镍;纳米片;超级电容器;

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1. Electroless fabrication and supercapacitor performance of CNT@NiO-nanosheet composite nanotubes [J] . Yu W., Li B. Q., Ding S. J. Nanotechnology . 2016,第7期

机译：CNT @ NiO-纳米片复合纳米管的化学制备及超级电容器性能
2. Cobalt hydroxide hexagonal nanoplates anchored on functionalized carbon nanotubes (CNTs) for supercapacitor applications: one-pot electrochemical fabrication of high performance nanocomposite [J] . Mustafa Aghazadeh, Isa Karimzadeh, Ali Ahmadi, Journal of materials science . 2018,第17期

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3. Fabrication of nanostructured MnO2/carbon nanotube composite from 3D precursor complex for high-performance supercapacitor [J] . Ramesh Sivalingam, Kim Heung Soo, Haldorai Yuvaraj, Materials Letters . 2017,第JUNa1期

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4. Electrochemical performance of polypyrroie/muiti-wailed carbon nanotubes composites for supercapacitors electrodes [C] . Jing Li, Huaqing Xie, Yang Li International Conference on Chemical, Material and Metallurgical Engineering . 2012

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5. Solid-state supercapacitors with ionic liquid gel polymer electrolyte based on poly (3, 4-ethylenedioxythiophene), carbon nanotubes, and metal oxides nanocomposites for electrical energy storage. [D] . Obeidat, Amr M. 2016

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6. High-performance symmetric supercapacitors based on carbon nanotube/graphite nanofiber nanocomposites [O] . Yongsheng Zhou, Pan Jin, Yatong Zhou, -1

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Electroless fabrication and supercapacitor performance of CNT@NiO-nanosheet composite nanotubes

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