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用于超级电容器的还原氧化石墨烯负载镍钴层状双氢氧化物纳米片的合成

Synthesis of reduced graphene oxide supported nickel-cobalt-layered double hydroxide nanosheets for supercapacitors.

作者信息

Zhang Liuyang, Cai Pengfei, Wei Zhihao, Liu Tao, Yu Jiaguo, Al-Ghamdi Ahmed A, Wageh S

机构信息

Foshan Xianhu Laboratory of the Advanced Energy Science and Technology Guangdong Laboratory, Xianhu Hydrogen Valley, Foshan 528200, PR China; State Key Laboratory of Advanced Technology for Materials Synthesis and Processing, Wuhan University of Technology, Wuhan 430070, PR China.

State Key Laboratory of Advanced Technology for Materials Synthesis and Processing, Wuhan University of Technology, Wuhan 430070, PR China.

出版信息

J Colloid Interface Sci. 2021 Apr 15;588:637-645. doi: 10.1016/j.jcis.2020.11.056. Epub 2020 Nov 19.

DOI:10.1016/j.jcis.2020.11.056
PMID:33267956
Abstract

Supercapacitors are deemed as reliable power sources for portable devices and electric vehicles. Electrode materials with high energy and power densities are greatly needed. Herein, we designed reduced-graphene-oxide supported nickel-cobalt layered double hydroxide nanosheets (NiCo-LDH/rGO) as electrode materials. The introduction of graphene could largely enhance the conductivity, and the supported NiCo-LDH could effectively prevent graphene from self-aggregation. Thanks to the synergistic effect of conductive graphene and electro-active LDH, the nanocomposites delivered a capacitance of 1675 F g at 1 A g and decent rate performance (capacitance retention of 83.8% at 10 A g); while NiCo-LDH could only exhibited a capacitance of 920 F g at 1 A g and 81.5% of the capacitance remained at 10 A g. The asymmetric supercapacitors assembled with NiCo-LDH/rGO and activated carbon (AC) delivered high energy density and power density, up to 49.9 Wh kg and 3747.9 W kg, respectively. The appealing electrochemical performance indicates its huge application potential in supercapacitors.

摘要

超级电容器被认为是便携式设备和电动汽车可靠的电源。因此,迫切需要具有高能量密度和功率密度的电极材料。在此,我们设计了还原氧化石墨烯负载的镍钴层状双氢氧化物纳米片(NiCo-LDH/rGO)作为电极材料。石墨烯的引入可大大提高导电性,负载的NiCo-LDH可有效防止石墨烯自聚集。由于导电石墨烯和电活性LDH的协同效应,该纳米复合材料在1 A g下的电容为1675 F g,具有良好的倍率性能(在10 A g下电容保持率为83.8%);而NiCo-LDH在1 A g下的电容仅为920 F g,在10 A g下电容保留率为81.5%。由NiCo-LDH/rGO和活性炭(AC)组装的不对称超级电容器具有高能量密度和功率密度,分别高达49.9 Wh kg和3747.9 W kg。这种吸引人的电化学性能表明其在超级电容器中具有巨大的应用潜力。

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