Preparation and performance of nickel/C based acidic oxygen evolution anode with polyphenol film

IF 8.1 2区 工程技术 Q1 CHEMISTRY, PHYSICAL International Journal of Hydrogen Energy Pub Date : 2024-11-30 DOI:10.1016/j.ijhydene.2024.11.370
Daxue Fu , Shangli Chen , Jiazhuang Shi , Qunzhao Xu , Jiuhua Wu
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Abstract

The development of efficient and competitive acidic oxygen evolution reaction (OER) electrocatalysts is a major challenge for hydrogen production by water electrolysis. In this paper, a novel strategy was proposed for preparing OER electrode material, by which a polyphenol (ppl) film was plated on a carbon black-coated nickel foam substrate. The electrode Ni/C-ppl-30-0.1-0.1 shows excellent catalytic activity and stability. The overpotential at 10 mA cm−2 is 350 mV, which is lower than some of the reported non-precious metal materials. Structural and electrocatalytic performance analyses show that the performance of the electrode benefits from the surface defects of the ppl film and the abundant oxygen-containing functional group, which provide numerous catalytic centers for OER. This work provides an attempt to enhance the anodic stability in acidic media by conductive polymer film.
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镍/C基多酚膜酸性析氧阳极的制备及性能研究
高效、有竞争力的酸性析氧反应(OER)电催化剂的开发是水电解制氢的主要挑战。本文提出了一种制备OER电极材料的新策略,即在炭黑涂层的泡沫镍衬底上镀一层多酚(ppl)薄膜。Ni/C-ppl-30-0.1-0.1电极表现出优异的催化活性和稳定性。在10 mA cm−2下的过电位为350 mV,低于一些报道的非贵金属材料。结构和电催化性能分析表明,ppl膜的表面缺陷和丰富的含氧官能团为OER提供了大量的催化中心,有利于电极的性能。本研究为利用导电聚合物薄膜提高其在酸性介质中的阳极稳定性提供了一种尝试。
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来源期刊
International Journal of Hydrogen Energy
International Journal of Hydrogen Energy 工程技术-环境科学
CiteScore
13.50
自引率
25.00%
发文量
3502
审稿时长
60 days
期刊介绍: The objective of the International Journal of Hydrogen Energy is to facilitate the exchange of new ideas, technological advancements, and research findings in the field of Hydrogen Energy among scientists and engineers worldwide. This journal showcases original research, both analytical and experimental, covering various aspects of Hydrogen Energy. These include production, storage, transmission, utilization, enabling technologies, environmental impact, economic considerations, and global perspectives on hydrogen and its carriers such as NH3, CH4, alcohols, etc. The utilization aspect encompasses various methods such as thermochemical (combustion), photochemical, electrochemical (fuel cells), and nuclear conversion of hydrogen, hydrogen isotopes, and hydrogen carriers into thermal, mechanical, and electrical energies. The applications of these energies can be found in transportation (including aerospace), industrial, commercial, and residential sectors.
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