基于无机金属氧化物纳米催化剂的水电解法制氢最新进展

IF 4.1 3区 化学 Q1 CHEMISTRY, INORGANIC & NUCLEAR
Muhammad Naeem Ayub, Muhammad Fazle Rabbee, Umer Shahzad, Mohsin Saeed, Saad M. Al-Baqami, Khalid A. Alzahrani, Md. Reazuddin Repon, Md. Rezaur Rahman, Mohammad Mizanur Rahman Khan, Mohammed M. Rahman
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引用次数: 0

摘要

当今世界正在寻找一种廉价、环保和高效的化石燃料替代品。由于全世界每天都要消耗大量的化石燃料,有害气体的排放对人类造成了致命的影响。在这种情况下,氢能以清洁、可再生和更高效的能源形式出现了。现在的关键挑战是如何以商业规模高效生产绿色氢气,以满足氢气需求。电解水是实现高效制氢的最佳途径。为此,合成和改良低铸造、活性和稳定的催化剂或电解催化剂是利用电催化方法分水制氢的先决条件。本综述的重点是,我们如何利用新方法,特别是在活性、效率、大表面积、多孔性和稳定性方面的电催化剂,通过各种技术进行水的电解。这将通过两个半电池反应的方法来实现,一个是氢进化反应(HER),另一个是氧进化反应(OER),反应同时在酸性和碱性介质中进行。从可用水中生产绿色清洁氢气,并对其进行物理和化学储存,以进一步用于支持人类的可持续发展,这一点受到了特别关注。近期的基本策略是制备、设计和开发纳米级材料/与非贵金属的复合材料,并在此方法中讨论与贵金属的纳米结构。提高效率和实用性一直是使用不同种类材料的焦点。为了提高 OER 和 HER 的电催化效率,我们将讨论研究催化剂的化学成分、形状、表面积、孔隙率和协同作用以及纳米结构电催化剂活性位点的新分析方法和见解。本综述将进一步介绍利用各种纳米材料通过电催化方法从水中机械化高效生产清洁氢气(即 HER)的发展现状和最新进展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Recent advances on hydrogen generation based on inorganic metal oxide nano-catalyst using water electrolysis approach
Today world is looking for a cheap, environment friendly and efficient substitute of fossil fuel. Because due to large consumption of the fossil fuels on daily basis in whole world, emission of hazardous gases have produced lethal effects on human being. In this scenario hydrogen energy has emerged in form of clean, renewable and more efficient energy. Now the key challenge is that efficient production of the green hydrogen at commercial scale to meet demand of hydrogen. The electrolysis of water is the best pathway to achieve efficient hydrogen production. For this purpose the synthesis and improvement of low cast, active as well as stable catalysts or electrolysis is prerequisite for hydrogen production by electro-catalytic method for splitting of water. Main focus of this review is that, how we can perform the electrolysis of water by various techniques using novel methods especially electro-catalysts in term of activity, efficiency, large surface area, porosity, and stability. This will be performed by the method of two-half cell reaction one is the Hydrogen Evolution Reaction (HER) other one Oxygen Evolution Reaction (OER), where reaction proceeded in both medium acidic as well as alkaline phases. Particular attention is given to produce green clean hydrogen production from usable water and its physical and chemical storages for further uses for the support of human sustainability. Basically the recent strategy is to prepare, design and development of nanoscale materials/composite with non-noble metals and with also nanostructured with noble-metals will be discussed in this approach. The increased efficiency and utility have been the focal points of the use of diverse materials from different classes. To increase the electro-catalytic efficiency in OER and HER, we will discuss about new analyses methods and insights into studying the chemical compositions, shapes, surface area, porosity, and synergy of catalysts and the active sites of nanostructured electro-catalysts. This review will further provide the picture of current state of developments as well as recent progress for mechanized efficient production of clean hydrogen (i.e., HER) from water by electrocatalytic method using various nanoscale materials in a broad scale.
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来源期刊
Reviews in Inorganic Chemistry
Reviews in Inorganic Chemistry 化学-分析化学
CiteScore
7.30
自引率
4.90%
发文量
20
审稿时长
1 months
期刊介绍: Reviews in Inorganic Chemistry (REVIC) is a quarterly, peer-reviewed journal that focuses on developments in inorganic chemistry. Technical reviews offer detailed synthesis protocols, reviews of methodology and descriptions of apparatus. Topics are treated from a synthetic, theoretical, or analytical perspective. The editors and the publisher are committed to high quality standards and rapid handling of the review and publication process. The journal publishes all aspects of solid-state, molecular and surface chemistry. Topics may be treated from a synthetic, theoretical, or analytical perspective. The editors and the publisher are commited to high quality standards and rapid handling of the review and publication process. Topics: -Main group chemistry- Transition metal chemistry- Coordination chemistry- Organometallic chemistry- Catalysis- Bioinorganic chemistry- Supramolecular chemistry- Ionic liquids
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