金属-有机骨架介质材料的性能与应用综述

IF 0.4 Q4 NANOSCIENCE & NANOTECHNOLOGY
Santosh S Nandi, S. Kerur, V. Adimule, Abhinay Gupta, B. Thirumalaiyammal, N. Mujafarkani
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引用次数: 1

摘要

被称为介电材料的电绝缘体是一种可以是固体、液体或气体的物质。介电材料是一种非金属物质,具有很高的比电阻。电介质的功能是作为完美的电容器,储存和耗散电能。由于对电容器、半导体器件、液晶显示器、变压器和其他产品的需求不断增加,电导率、介电极化、色散、弛豫和可调性等性能受到了极大的关注。为了进一步提高它们的性能,必须开发先进材料。金属有机骨架(MOFs)是一类多孔晶体固体,已被证明是合成功能材料的理想模型,可用于制造超级电容器电极。与单金属mof相比,双金属mof及其衍生物具有更高的导电性、更高的电荷容量和可变的电化学活性。本研究的重点是mof衍生双金属在介电材料中的使用,特别注意了解性能增强的原因,并涵盖该领域的最新进展和各种应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Properties and Applications of Dielectric Materials Derived from Metal-Organic Frameworks - A Review
An electrical insulator known as a dielectric material is a substance that can be solid, liquid, or gaseous. Having a high specific resistance, a dielectric material is a non-metallic substance. A dielectric function as the perfect capacitor, storing and dissipating electrical energy. Due to the rising need for capacitors, semiconductor devices, Liquid Crystal Displays, electrical transformers, and other products, properties including electric susceptibility, dielectric polarisation, dispersion, relaxation, and tunability have received a great deal of attention. Advanced materials must be developed in order to further enhance their performance. Metal-organic frameworks (MOFs), a class of porous crystalline solids, have shown to be ideal models for synthesising functional materials that may be used to make supercapacitor electrodes. Greater electrical conductivity, a higher charge capacity, and variable electrochemical activity are just a few benefits that bimetallic MOFs and their derivatives have over monometallic MOFs. This study focuses on the usage of MOF-derived bimetallic in dielectric materials, with particular attention paid to understanding the cause of the enhanced performance and covering the most recent advancements in the area with a variety of applications.
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来源期刊
Nano Hybrids and Composites
Nano Hybrids and Composites NANOSCIENCE & NANOTECHNOLOGY-
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