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镍向氢氧化镍的电化学转变作为水氧化反应的有效电极。

electrochemical transformation of Ni to NiOOH as an effective electrode for water oxidation reaction.

作者信息

Kumaravel Sangeetha, Jayakumar Rishivandhiga, Saravanan Karthik Kumaran, Niharika Vennala, Eunice Evangeline Bariki, Singaram Vengatesan, Kundu Subrata

机构信息

Electrochemical Process Engineering (EPE) Division, CSIR-Central Electrochemical Research Institute (CECRI), Karaikudi-630003, Tamil Nadu, India.

Academy of Scientific and Innovative Research (AcSIR), Ghaziabad-201002, India.

出版信息

Dalton Trans. 2022 Nov 21;51(45):17454-17465. doi: 10.1039/d2dt03160d.

Abstract

The poor kinetic background with the four-electron transfer of the oxygen evolution reaction (OER) was eradicated using a nickel-based catalyst, which was identified as an alternative to noble-metal catalysts. Here, we report the simple formation of an earth-abundant nickel oxyhydroxide (NiOOH) electrocatalyst for efficient OER in an alkaline medium. Electroless material preparation, namely, the direct modification of a gas diffusion layer (GDL) with a nickel salt, was studied, and the layered oxyhydroxide phase was found to influence the rate of the OER. Interestingly, complete OER studies were carried out without using any external binders; that is, the catalyst stabilized in an aqueous medium was directly exploited. The resulting electrochemically tuned NiOOH@GDL shows a low overpotential of 294 mV to reach a current density of 20 mA cm, which is superior to most non-noble mono/bimetal oxides that have been studied as OER catalysts so far. The catalyst also shows better kinetics with a low Tafel slope value of 30 mV dec for NiOOH@GDL-B. In addition, the stability of NiOOH@GDL-B was confirmed from a chronoamperometric study that was carried out for 30 h with no significant loss in activity. The electrochemical evolution of the materials was further scrutinized, and a high turnover frequency (TOF) of 1.1 × 10 s was calculated at 300 mV. The consistency of the catalyst was proved with various post-OER characterization analyses, and it appears to be beneficial for developing an efficient electrocatalyst for OER in the near future.

摘要

使用镍基催化剂消除了析氧反应(OER)四电子转移过程中不良的动力学背景,该镍基催化剂被视为贵金属催化剂的替代品。在此,我们报道了一种简单的方法来制备地球上储量丰富的羟基氧化镍(NiOOH)电催化剂,用于在碱性介质中高效进行析氧反应。研究了化学镀材料制备方法,即直接用镍盐对气体扩散层(GDL)进行改性,发现层状羟基氧化物相影响析氧反应速率。有趣的是,在不使用任何外部粘结剂的情况下进行了完整的析氧反应研究;也就是说,直接利用在水性介质中稳定的催化剂。所得的经电化学调谐的NiOOH@GDL在达到20 mA cm的电流密度时显示出294 mV的低过电位,这优于迄今为止作为析氧反应催化剂研究的大多数非贵金属单/双金属氧化物。对于NiOOH@GDL-B,该催化剂还表现出更好的动力学,塔菲尔斜率值低至30 mV dec。此外,通过计时电流法研究证实了NiOOH@GDL-B的稳定性,该研究进行了30小时,活性没有明显损失。进一步研究了材料的电化学演变,在300 mV下计算出1.1×10 s的高周转频率(TOF)。通过各种析氧反应后的表征分析证明了催化剂的一致性,这似乎有利于在不久的将来开发一种高效的析氧反应电催化剂。

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