Recent Trends in Synthesis and Investigation of Nickel Phosphide Compound/Hybrid-Based Electrocatalysts Towards Hydrogen Generation from Water Electrocatalysis

IF 7.1 2区化学 Q1 CHEMISTRY, MULTIDISCIPLINARY

Topics in Current Chemistry Pub Date : 2019-10-11 DOI:10.1007/s41061-019-0254-3

Diab Khalafallah, Mingjia Zhi, Zhanglian Hong

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引用次数: 28

Abstract

Sustainable and?high performance energy devices such as solar cells, fuel cells, metal–air batteries, as well as alternative energy conversion and storage systems have been considered as promising technologies to meet the ever-growing demands for clean energy. Hydrogen evolution reaction (HER) is a crucial process for cost-effective hydrogen production; however, functional electrocatalysts are potentially desirable to expedite reaction kinetics and supply high energy density. Thus, the development of inexpensive and catalytically active electrocatalysts is one of the most significant and challenging issues in the field of electrochemical energy storage and conversion. Realizing that advanced nanomaterials could engender many advantageous chemical and physical properties over a wide scale, tremendous efforts have been devoted to the preparation of earth-abundant transition metals as electrocatalysts for HER in both acidic and alkaline environments because of their?low processing costs, reasonable catalytic activities, and chemical stability. Among all transition metal-based catalysts, nickel compounds are the most widely investigated, and have exhibited pioneering performances in various electrochemical reactions. Heterostructured nickel phosphide (Ni_xP_y) based compounds were introduced as promising candidates of a new category, which often display chemical and electronic characteristics that are distinct from those of non-precious metals counterparts, hence providing an opportunity to construct new catalysts with an?improved activity and stability. As a result, the library of Ni_xP_y catalysts has been enriched very rapidly, with the possibility of fine-tuning their surface adsorption properties through synergistic coupling with nearby elements or dopants as the basis of future practical implementation. The current review distils recent advancements in Ni_xP_y compounds/hybrids and their application for HER, with a robust emphasis on breakthroughs in composition refinement. Future perspectives for modulating the HER activity of Ni_xP_y compounds/hybrids, and the challenges that need to be overcome before their practical use in sustainable hydrogen production are also discussed.

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磷化镍化合物/水电催化制氢混合电催化剂的合成与研究进展

可持续和?高性能能源设备，如太阳能电池、燃料电池、金属-空气电池，以及替代能源转换和存储系统，已被认为是有前途的技术，以满足日益增长的清洁能源的需求。析氢反应(HER)是经济高效制氢的关键过程;然而，功能化电催化剂在加速反应动力学和提供高能量密度方面是潜在的理想选择。因此，开发廉价且具有催化活性的电催化剂是电化学能量存储和转换领域最重要和最具挑战性的问题之一。人们意识到先进的纳米材料可以在大范围内产生许多有利的化学和物理性质，因此在酸性和碱性环境下，大量的过渡金属作为HER的电催化剂的制备已经投入了巨大的努力。加工成本低，催化活性合理，化学稳定性好。在所有过渡金属基催化剂中，镍化合物的研究最为广泛，并在各种电化学反应中表现出开创性的性能。基于异质结构磷化镍(NixPy)的化合物是一类很有前途的新化合物，它们通常表现出不同于非贵金属同类化合物的化学和电子特性，因此为构建具有非贵金属的新型催化剂提供了机会。改善活动和稳定性。因此，NixPy催化剂库得到了非常迅速的丰富，有可能通过与附近元素或掺杂剂的协同耦合来微调其表面吸附性能，这是未来实际实施的基础。本文综述了NixPy化合物/杂化物及其在HER中的应用的最新进展，重点介绍了化合物精制方面的突破。本文还讨论了调节NixPy化合物/杂化物的HER活性的未来前景，以及在实际应用于可持续制氢之前需要克服的挑战。

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来源期刊

Topics in Current Chemistry Chemistry-General Chemistry

CiteScore

13.70

自引率

1.20%

发文量

期刊介绍： Topics in Current Chemistry is a journal that presents critical reviews of present and future trends in modern chemical research. It covers all areas of chemical science, including interactions with related disciplines like biology, medicine, physics, and materials science. The articles in this journal are organized into thematic collections, offering a comprehensive perspective on emerging research to non-specialist readers in academia or industry. Each review article focuses on one aspect of the topic and provides a critical survey, placing it in the context of the collection. Selected examples highlight significant developments from the past 5 to 10 years. Instead of providing an exhaustive summary or extensive data, the articles concentrate on methodological thinking. This approach allows non-specialist readers to understand the information fully and presents the potential prospects for future developments.