2D Conductive Metal–Organic Frameworks for Electrochemical Energy Application

Ruofan Li, Xiaoli Yan, Long Chen
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Abstract

Two-dimensional conductive metal–organic frameworks (2D c-MOFs) have attracted research attention, benefitting from their unique properties such as superior electronic conductivity, designable topologies, and well-defined catalytic/redox-active sites. These advantages enable 2D c-MOFs as promising candidates in electrochemical energy applications, including supercapacitors, batteries and electrocatalysts. This mini-review mainly highlights recent advancements of 2D c-MOFs in the utilization for electrochemical energy storage, as well as the forward-looking perspective on the future prospects of 2D c-MOFs in the field of electrochemical energy.

Table of content:

1 Introduction

2 Design Principles of 2D c-MOFs

3 Synthesis of 2D c-MOFs

4 2D c-MOFs for Electrochemical Energy Storage

4.1 Supercapacitors

4.2 Metallic Batteries

4.2.1 Lithium-Ion Batteries

4.2.2 Sodium-Ion Batteries

4.2.3 Zinc-Ion Batteries

4.2.4 Sodium–Iodine Batteries

4.2.5 Lithium–Sulfur Batteries

4.2.6 Potassium-Ion Batteries

5 2D c-MOFs for Electrochemical Energy Conversion

6 Conclusions and Outlook

Abstract Image

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用于电化学能源应用的二维导电金属有机框架
二维导电金属有机框架(2D c-MOFs)因其独特的性能(如卓越的电子导电性、可设计的拓扑结构和明确的催化/氧化还原活性位点)而备受研究关注。这些优势使二维 c-MOFs 成为电化学能源应用(包括超级电容器、电池和电催化剂)中大有可为的候选材料。本微型综述主要介绍二维 c-MOFs 在电化学储能利用方面的最新进展,以及对二维 c-MOFs 在电化学能源领域未来前景的前瞻性展望。目录1 引言 2 二维 c-MOFs 的设计原理 3 二维 c-MOFs 的合成 4 二维 c-MOFs 用于电化学储能 4.1 超级电容器 4.2 金属电池 4.2.1 锂离子电池 4.2.2 钠离子电池 4.2.3 锌离子电池 4.2.4 钠碘电池 4.2.5 锂硫电池 4.2.6 钾离子电池 5 用于电化学能量转换的二维 c-MOFs 6 结论与展望
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CiteScore
3.70
自引率
0.00%
发文量
0
审稿时长
12 weeks
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