二维材料的限制:新兴可再生能源转换和其他应用的重大进展和挑战

IF 9.1 2区 化学 Q1 CHEMISTRY, INORGANIC & NUCLEAR Progress in Solid State Chemistry Pub Date : 2021-03-01 DOI:10.1016/j.progsolidstchem.2020.100294
Ayesha Khan Tareen , Karim Khan , Muhammad Aslam , Xinke Liu , Han Zhang
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引用次数: 20

摘要

能源生产对低碳排放的最高需求是非常关键的,可以通过引入新的低成本但更稳定和活性的电催化剂来实现,这些电催化剂可以提高现有或新提出的可再生能源设备的效率。目前,水(H2O)电解中的氧/氢析出反应(OER/HER)对于低成本生成纯氢(H2)燃料具有重要意义,而燃料电池中的氧还原反应(ORR)在加载更多贵金属(如基准铂)时反应动力学仍然缓慢。因此,以非贵金属催化剂(NPMCs)二维材料(2dm)替代稀有贵金属催化剂是本研究的动机。由于其纳米级和原子级的应用,其中一些具有突出的电学性能,在电催化应用中起着非常重要的作用,因此具有广泛的意义。NPMCs 2dm比传统的贵金属基电催化剂效率更高,因为它们具有柔性电极结构,优异的催化活性和高稳定性,特别是在复合形式下。本文将详细介绍二维电催化剂;这些方法显示出ORR、OER和HER的高效率、选择性和可持续性。在电催化应用中,最重要的一点是新引入的约束效应,我们将主要关注基于2dm的约束效应。重点介绍了改变二维约束电催化剂电子态的各种方法,并对利用二维约束电催化剂进行能量转换进行约束催化的前景进行了展望。并就进一步提高其性能的相关领域提出观点和解决方案。最后,我们将详细讨论到目前为止关于2dm在能源生产设备中的最新进展和未来的预测。
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Confinement in two-dimensional materials: Major advances and challenges in the emerging renewable energy conversion and other applications

Energy production highest demand with low-carbon emission is very critical and can be achieved by introducing new low cost but more stable and active electrocatalyst that can improve the efficiency of existing or newly proposed renewable energy devices. Nowadays, oxygen/hydrogen evolution reactions (OER/HER) in water (H2O) electrolysis is important to cost-efficient formation of pure hydrogen (H2) fuel, while oxygen reduction reaction (ORR) in fuel cells are experiencing a sluggish reaction kinetics still when load more quantity of precious metals, like benchmark Pt. Therefore, this study is motivated by a requirement to substitute rare precious metal catalysts by nonprecious metals catalysts (NPMCs) two-dimensional materials (2DMs). The 2DMs have a broad significance due to their nano- and atomic-level applications and some of them with prominent electrical properties, which plays very important role in electrocatalytic applications. The NPMCs 2DMs are more efficient than the conventional precious metals based electrocatalysts, as they present flexible electrode configuration, excellent catalytic activity, and high stability, especially in their composite form. In this review we will explain in detail about the 2D based electrocatalysts; those demonstrate high efficiency, selectivity and sustainability for ORR, OER, and HER. The most important point related to electrocatalytic applications of the 2DMs efficiency enhancement is newly introduced confinement effect, and we will mainly concentrate on 2DMs based confinement effect. The diverse ways for modifying electronic states of the 2D confinement electrocatalysts are emphasized and prospects on confinement catalysis by using 2DMs to energy conversion are given. The perspectives on the relevant areas about further enhancement in their properties will also propos and address. Finally, we will discuss in detail about recent progresses made till now and future predictions about the 2DMs in energy producing devices.

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来源期刊
Progress in Solid State Chemistry
Progress in Solid State Chemistry 化学-无机化学与核化学
CiteScore
14.10
自引率
3.30%
发文量
12
期刊介绍: Progress in Solid State Chemistry offers critical reviews and specialized articles written by leading experts in the field, providing a comprehensive view of solid-state chemistry. It addresses the challenge of dispersed literature by offering up-to-date assessments of research progress and recent developments. Emphasis is placed on the relationship between physical properties and structural chemistry, particularly imperfections like vacancies and dislocations. The reviews published in Progress in Solid State Chemistry emphasize critical evaluation of the field, along with indications of current problems and future directions. Papers are not intended to be bibliographic in nature but rather to inform a broad range of readers in an inherently multidisciplinary field by providing expert treatises oriented both towards specialists in different areas of the solid state and towards nonspecialists. The authorship is international, and the subject matter will be of interest to chemists, materials scientists, physicists, metallurgists, crystallographers, ceramists, and engineers interested in the solid state.
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