基于微纳米粒子沉积的纸基超级电容器用于纸基诊断

2013 IEEE SENSORS Pub Date : 2013-12-19 DOI:10.1109/ICSENS.2013.6688437

P. Mostafalu, S. Sonkusale

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引用次数: 9

摘要

在本文中，我们提出了一种柔性的超级电容器，它是由凝胶基电解质夹在两个纳米粒子修饰的镍基电极之间组成的。纸的固有孔隙度为镍微纳米粒子的电沉积提供了多孔模板，增加了电极的总表面积。这就产生了具有特殊能量密度的高密度超级电容器。由于制造过程可以在环境中进行，而不需要洁净室，使用纸张等低成本材料，因此非常适合用于低成本传感器和医疗诊断。我们使用脉冲瞬态测量来表征超级电容器。结果表明，对于17cm2的表面积，我们实现了10法拉的电容，只有6mΩ串联电阻。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Paper-based super-capacitor using micro and nano particle deposition for paper-based diagnostics

In this paper, we present a flexible supercapacitor on paper substrate consisting of gel-based electrolyte sandwiched between two nanoparticle modified nickel-based electrodes. The inherent porosity of the paper provides a porous template for electrodeposition of nickel micro- and nano-particles through them, increasing the overall surface area of the electrodes. This results in high-density supercapacitor with exceptional energy density. Since the fabrication process can be conducted in ambient environment without a need for cleanroom using low cost materials such as paper, it is highly suitable for low-cost sensors and medical diagnostics. We characterize the supercapacitor using pulsed transient measurements. Results indicate that for a 17cm2 surface area, we achieve a capacitance of 10 Farads with just 6mΩ series resistance.

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2013 IEEE SENSORS

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