Preparation of fluorine-doped α-Ni hydroxides as alkaline water electrolysis catalysts via the liquid phase deposition method†

IF 5 3区 材料科学 Q2 CHEMISTRY, PHYSICAL
Tomoyuki Watanabe, Kenko Tsuchimoto, Tomohiro Fukushima, Kei Murakoshi, Minoru Mizuhata and Hiro Minamimoto
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引用次数: 0

Abstract

A room-temperature liquid phase process was utilized to prepare α-Ni(OH)2 thin films with high crystallinity for use as oxygen evolution reaction catalysts under strongly alkaline conditions. It was discovered that the catalytic activity of the prepared catalyst is sensitive to pH during the liquid phase process. Specifically, under optimized reaction conditions, we found that the synthesized α-Ni(OH)2 thin film showed relatively high catalytic activity and high stability across potential scans. Our structural analyses revealed that the fluorine incorporation within the framework of α-Ni(OH)2 was the origin of the high catalytic activity. And also, the catalytic activity depending on the sample preparation conditions was discussed through the ex situ and in situ measurements of the electrode surface. This work provides insights into the potential of the solution process for preparing high crystal materials with high reproducibility as an electrode preparation procedure.

Abstract Image

Abstract Image

通过液相沉积法制备掺氟 α-Ni 氢氧化物作为碱性水电解催化剂
利用室温液相工艺制备了具有高结晶度的 α-Ni(OH)2 薄膜,用于强碱性条件下的氧进化反应催化剂。研究发现,在液相过程中,所制备催化剂的催化活性对 pH 值非常敏感。具体地说,在优化的反应条件下,我们发现合成的 α-Ni(OH)2 薄膜显示出相对较高的催化活性和跨电位扫描的高稳定性。我们的结构分析表明,α-Ni(OH)2 框架内的氟掺杂是高催化活性的来源。此外,通过对电极表面的原位和原位测量,我们还讨论了催化活性取决于样品制备条件的问题。这项研究深入探讨了溶液法制备高晶体材料的潜力,并将其作为一种电极制备程序,具有很高的可重复性。
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来源期刊
Sustainable Energy & Fuels
Sustainable Energy & Fuels Energy-Energy Engineering and Power Technology
CiteScore
10.00
自引率
3.60%
发文量
394
期刊介绍: Sustainable Energy & Fuels will publish research that contributes to the development of sustainable energy technologies with a particular emphasis on new and next-generation technologies.
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