A hybrid of CoOOH nanorods with carbon nanotubes as a superior positive electrode material for supercapacitors

Zhu Lei; Wu Wenyi; Wang Xiaowei; Wu Xiongwei; Tang Weiping; Wu Yuping

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A hybrid of CoOOH nanorods with carbon nanotubes as a superior positive electrode material for supercapacitors

机译：CoOOH纳米棒与碳纳米管的混合体，作为超级电容器的优质正极材料

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A hybrid of CoOOH nanorods with conductive MWCNTs is successfully prepared. Due to the introduction of MWCNTs, the diameter of the CoOOH nanorods is smaller than that of pristine CoOOH nanorods. Because of the conductive nanostructure network and smaller diameter of the CoOOH nanorods, it exhibits high capacitance, good high-rate capability and excellent cycling performance as a positive electrode for supercapacitors in a 0.5 mol L-1 KOH aqueous electrolyte. Its specific capacity is 312 F g(-1) at the current density of 1 A g(-1), and 182 F g(-1) even at the current density of 10 A g(-1). After 10 000 full cycles, the capacitance retention is 97%. The hybrid is of great promise for practical application.

机译：成功制备了CoOOH纳米棒与导电MWCNT的杂化物。由于引入了MWCNT，CoOOH纳米棒的直径小于原始CoOOH纳米棒的直径。由于导电纳米结构网络和CoOOH纳米棒的直径较小，它在0.5 mol L-1 KOH水性电解质中作为超级电容器的正极表现出高电容，良好的高倍率能力和出色的循环性能。它的比容量在1 A g（-1）的电流密度下为312 F g（-1），甚至在10 A g（-1）的电流密度下也为182 F g（-1）。经过1万个完整循环后，电容保持率为97％。混合动力车在实际应用中具有广阔的前景。

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《RSC Advances》 |2014年第103期|共6页
作者
Zhu Lei; Wu Wenyi; Wang Xiaowei; Wu Xiongwei; Tang Weiping; Wu Yuping;
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中图分类化学;
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1. A hybrid of CoOOH nanorods with carbon nanotubes as a superior positive electrode material for supercapacitors [J] . Zhu Lei, Wu Wenyi, Wang Xiaowei, RSC Advances . 2014,第103期

机译：CoOOH纳米棒与碳纳米管的混合体，作为超级电容器的优质正极材料
2. One-step microwave synthesis CoOOH/Co(OH)(2)/CNT nanocomposite as superior electrode material for supercapacitors [J] . Ionics . 2020,第7期

机译：一步微波合成CoOOH / CO（OH）（2）/ CNT纳米复合材料作为超级电容器的优质电极材料
3. Superior performance of asymmetric supercapacitor based on reduced graphene oxide-manganese carbonate as positive and sono-chemically reduced graphene oxide as negative electrode materials [J] . Jana Milan, Kumar J. Sharath, Khanra Partha, Journal of power sources . 2016,第JANa30期

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4. EFFECT OF CARBON NANOTUBES ON THE ECLECTROCHEMICAL PROPERTIES OF ACTIVATED CARBON CLOTH/POLYANILINE FLEXIBLE ELECTRODE MATERIALS FOR SUPERCAPACITOR [C] . Ming Zhong, Yan Song, Yu Geng Annual World Conference on Carbon . 2011

机译：碳纳米管对超级电容器活性炭布/聚苯胺柔性电极材料的蚀细胞化学性能的影响
5. Carbon Nanotube/Manganese Oxide Composite Electrode Materials for Hybrid Supercapacitors and Lithium Ion Battery Anode [D] . Gudavalli, Ganesh Sainadh. 2019

机译：用于杂交超级电容器和锂离子电池阳极的碳纳米管/氧化锰复合电极材料
6. Synthesis of NiMn-LDH Nanosheet@Ni3S2 Nanorod Hybrid Structures for Supercapacitor Electrode Materials with Ultrahigh Specific Capacitance [O] . Shuai Yu, Yingxi Zhang, Gaobo Lou, -1

机译：超高比电容超级电容器电极材料的NiMn-LDH Nanosheet @ Ni3S2纳米棒混合结构的合成
7. Amorphous molybdenum sulfide on graphene–carbon nanotube hybrids as supercapacitor electrode materials [O] . Kien-Cuong Pham, David S. McPhail, Andrew T. S. Wee, 2017

机译：石墨烯 - 碳纳米管杂交物中的无定形钼硫化物作为超级电容器电极材料
8. Novel Functionalized Carbon Nanotube Supercapacitor Materials: Contribution to the Supercapacitor TIF. [R] . Huber, T. 2014

机译：新型功能化碳纳米管超级电容器材料：对超级电容器TIF的贡献。

A hybrid of CoOOH nanorods with carbon nanotubes as a superior positive electrode material for supercapacitors

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