新型3D多孔银纳米多聚体作为高效超级电容器电极：光学和电化学性质的合成与研究

New 3D Porous Silver Nanopolycluster as a Highly Effective Supercapacitor Electrode: Synthesis and Study of the Optical and Electrochemical Properties.

作者信息

Wu Qing-Shi, Bigdeli Fahime, Rouhani Farzaneh, Gao Xue-Mei, Kaviani Hamed, Li Hong-Jing, Wang Wei, Liu Kuan-Guan, Hu Mao-Lin, Cai Xiao-Qing, Morsali Ali

机构信息

College of Chemical Engineering and Materials Science, Quanzhou Normal University, Quanzhou 362000, Fujian Province, China.

Department of Chemistry, Faculty of Sciences, Tarbiat Modares University, Tehran 14115-175, Iran.

出版信息

Inorg Chem. 2021 Feb 1;60(3):1523-1532. doi: 10.1021/acs.inorgchem.0c02875. Epub 2021 Jan 20.

DOI:10.1021/acs.inorgchem.0c02875

PMID:33471996

Abstract

A high-nucleus silver nanopolycluster as a new type of silver-based polymer supercapacitor (SSc) by a simple and single-step synthesis process was designed and synthesized. The structural, optical, and electrochemical properties of SSc-2 were determined. This highly stable conductive 3D nanopolycluster shows great cycling stability, large capacity, and high energy density without any modification or doping process and so acts as an excellent SSc (412 F g at 1.5 A g). In addition, there was a stable cycling performance (94% capacitance) following 7000 cycles at 3 A g current density. The presence of fluorinated groups, 3D expansion of high-nucleus metallic clusters, and porosity are the advantages of SSc-2 that lead to stability, conductivity, and high capacity, respectively. These results lead to the development of a novel kind of SSc by overcoming the low conductivity and limited capacity challenges without any modification.

摘要

通过简单的一步合成工艺设计并合成了一种高核银纳米多聚簇，作为一种新型的银基聚合物超级电容器（SSc）。测定了SSc-2的结构、光学和电化学性质。这种高度稳定的导电三维纳米多聚簇在没有任何改性或掺杂过程的情况下，表现出优异的循环稳定性、大容量和高能量密度，因此可作为一种优异的超级电容器（在1.5 A g时为412 F g）。此外，在3 A g电流密度下进行7000次循环后，具有稳定的循环性能（电容保持率为94%）。含氟基团的存在、高核金属簇的三维扩展和孔隙率是SSc-2的优势，分别导致了稳定性、导电性和高容量。这些结果克服了低导电性和容量受限的挑战，在无需任何改性的情况下，推动了一种新型超级电容器的发展。

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新型3D多孔银纳米多聚体作为高效超级电容器电极：光学和电化学性质的合成与研究

New 3D Porous Silver Nanopolycluster as a Highly Effective Supercapacitor Electrode: Synthesis and Study of the Optical and Electrochemical Properties.

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