Synthesis of NiSe2 Materials Directly on Ni Foam using Microwave-Assisted Technique and Employing as Electrode Material in Supercapacitors

R. Taş, Ebru Köroğlu, Vedat Emin Ayaz
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Abstract

As the world’s population grows, the energy crisis is becoming an increasingly severe problem, driving the need for energy storage. This demand is a significant driver for innovation and development in the energy sector. Clean and sustainable energy research focuses on two areas: renewable resources and high-performance energy storage systems. Today’s energy systems provide large amounts of electricity generation, but the desired results cannot be achieved in the energy storage process. There is an urgent need for high-capacity and efficient energy storage devices. Supercapacitors are one of the most promising technologies for energy storage. They have competitive features such as high power density, excellent cycle stability, and short charge/discharge time. This study demonstrates the potential usage of NiSe2 in supercapacitor applications as cathode material. In an experimentally novel approach, NiSe2 on nickel foam was synthesized by a fast, simple, and inexpensive microwave-assisted method in the presence of selenium salt. In this route, nickel foam was employed as both nickel source and substrate. Furthermore, the electrochemical properties of the prepared NiSe2 cathodes were investigated in three electrodes system. As a result, NiSe2 obtained in 45 minutes delivers a high capacitance of 3.3 F/cm2 at a high current density of 5 mA/cm2.
利用微波辅助技术在镍泡沫上直接合成 NiSe2 材料并将其用作超级电容器的电极材料
随着世界人口的增长,能源危机正成为一个日益严重的问题,从而推动了对能源储存的需求。这种需求是能源领域创新和发展的重要驱动力。清洁和可持续能源研究主要集中在两个领域:可再生资源和高性能储能系统。当今的能源系统提供了大量的发电量,但在储能过程中却无法达到预期效果。我们迫切需要大容量、高效率的储能设备。超级电容器是最有前途的储能技术之一。超级电容器具有高功率密度、出色的循环稳定性和较短的充放电时间等优势。本研究证明了 NiSe2 作为阴极材料在超级电容器应用中的潜在用途。通过一种新颖的实验方法,在硒盐的存在下,采用快速、简单、廉价的微波辅助方法合成了泡沫镍上的 NiSe2。在该方法中,泡沫镍既是镍源又是基底。此外,还在三电极系统中研究了制备的 NiSe2 阴极的电化学特性。结果表明,在 5 mA/cm2 的高电流密度下,45 分钟内获得的 NiSe2 可提供 3.3 F/cm2 的高电容。
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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