基于电化学沉积MnO/聚吡咯的双层微电极用于微超级电容器的快速电荷转移动力学

Bilayered microelectrodes based on electrochemically deposited MnO/polypyrrole towards fast charge transport kinetics for micro-supercapacitors.

作者信息

Haider Waqas Ali, He Liang, Mirza Hameed A, Tahir Muhammad, Khan Aamir Minhas, Owusu Kwadwo Asare, Yang Wei, Wang Zhuqing, Mai Liqiang

机构信息

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

Department of Chemistry, York University Toronto M3J 1P3 Ontario Canada.

出版信息

RSC Adv. 2020 May 13;10(31):18245-18251. doi: 10.1039/d0ra01702g. eCollection 2020 May 10.

DOI:10.1039/d0ra01702g

PMID:35517224

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9053735/

Abstract

Micro-supercapacitors (MSCs) are promising power solution facilities for miniaturized portable electronic devices. Microfabrication of on-chip MSC with high specific capacitance and high energy density is still a great challenge. Herein, we report a high-performance MnO/polypyrrole (PPy) microelectrode based MSC (MnO/PPy-MSC) by modern micromachining technology. Interdigital Au micro current collectors were obtained by photolithography, physical vapor deposition and lift off. A layer of PPy was electrochemically deposited on Au current collectors followed by deposition of urchin-like MnO micro/nanostructures. The electrochemical performance of MnO/PPy-MSC was explored employing LiClO/PVA gel electrolyte. The assembled MSC demonstrated a high areal capacitance of 13 mF cm, an energy density of 1.07 × 10 mW h cm and a power density of 0.53 mW cm. In addition, the MnO/PPy-MSC showed an improved cycling stability, retaining 84% of the initial capacitance after 5000 CV cycles at a scan rate of 500 mV s. Our proposed strategy provides a versatile and promising method for the fabrication of high-performance MSCs with large-scale applications.

摘要

微型超级电容器（MSCs）是用于小型便携式电子设备的很有前景的供电解决方案设施。通过微加工制造具有高比电容和高能量密度的片上MSC仍然是一个巨大的挑战。在此，我们通过现代微加工技术报道了一种基于MnO/聚吡咯（PPy）微电极的高性能MSC（MnO/PPy-MSC）。通过光刻、物理气相沉积和剥离工艺获得叉指式金微集流体。在金集流体上电化学沉积一层PPy，随后沉积海胆状MnO微/纳米结构。采用LiClO/PVA凝胶电解质探究了MnO/PPy-MSC的电化学性能。组装的MSC表现出13 mF/cm²的高面积电容、1.07×10⁻³ mW h/cm²的能量密度和0.53 mW/cm²的功率密度。此外，MnO/PPy-MSC显示出改善的循环稳定性，在500 mV/s的扫描速率下进行5000次循环伏安循环后保留了初始电容的84%。我们提出的策略为大规模应用的高性能MSCs制造提供了一种通用且有前景的方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ae91/9053735/0884e90198b2/d0ra01702g-f1.jpg

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基于电化学沉积MnO/聚吡咯的双层微电极用于微超级电容器的快速电荷转移动力学

Bilayered microelectrodes based on electrochemically deposited MnO/polypyrrole towards fast charge transport kinetics for micro-supercapacitors.

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