Raney nickel induced interface modulation of active NiFe-hydroxide as efficient and robust electrocatalyst towards oxygen evolution reaction

IF 4.7 2区化学 Q2 CHEMISTRY, PHYSICAL Applied Catalysis A: General Pub Date : 2024-06-25 DOI:10.1016/j.apcata.2024.119858

Yaqi Mao , Kai Zhang , Shuaichong Wei , Jingde Li , He Xiao , Guihua Liu

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Abstract

Preparation of active and durable low-cost catalysts towards oxygen evolution reaction (OER) is essential for alkaline water splitting. Herein, porous Raney-Ni supported NiFe-LDH (NiFe-LDH/Raney-Ni) electrocatalyst was developed to achieve efficient and robust OER performance. Raney-Ni modulates the NiFe-LDH electronic structure by interfacial interaction. In-situ infrared shows the enhanced OH adsorption behavior, and in-situ Raman suggests that Raney-Ni promotes the formation of active NiFeOOH species on NiFe-LDH/Raney-Ni. Theoretical calculations found that the Fe atoms in NiFe-LDH/Raney-Ni enhances the charge transfer to the NiOOH species, which facilitates the formation of O* intermediates accelerating the OER process. The NiFe-LDH/Raney-Ni catalyst exhibits a low OER overpotential of 219 mV at 10 mA cm⁻² in 1 M KOH with excellent stability for 200 h at 200 mA cm⁻². Excellent performance is also achieved in alkaline electrolyzer test. This work presents a facile approach for the design of affordable and efficient alkaline OER electrocatalysts.

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雷尼镍诱导的活性氢氧化镍(NiFe-hydroxide)界面调制作为高效稳健的氧进化反应电催化剂

制备活性持久的低成本氧进化反应（OER）催化剂对于碱性水分离至关重要。在此，我们开发了多孔 Raney-Ni 支持的 NiFe-LDH（NiFe-LDH/Raney-Ni）电催化剂，以实现高效、稳健的 OER 性能。Raney-Ni 通过界面相互作用调节了 NiFe-LDH 的电子结构。原位红外显示了增强的羟基吸附行为，而原位拉曼则表明 Raney-Ni 促进了 NiFe-LDH/Raney-Ni 上活性 NiFeOOH 物种的形成。理论计算发现，NiFe-LDH/Raney-Ni 中的铁原子增强了向 NiOOH 物种的电荷转移，从而促进了 O* 中间体的形成，加速了 OER 过程。在 1 M KOH 中，NiFe-LDH/Raney-Ni 催化剂在 10 mA cm-2 的条件下具有较低的 OER 过电位（219 mV），在 200 mA cm-2 的条件下可稳定运行 200 小时。在碱性电解槽测试中也取得了优异的性能。这项工作为设计经济、高效的碱性 OER 电催化剂提供了一种简便的方法。

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来源期刊

Applied Catalysis A: General 化学-环境科学

CiteScore

9.00

自引率

5.50%

发文量

415

审稿时长

24 days

期刊介绍： Applied Catalysis A: General publishes original papers on all aspects of catalysis of basic and practical interest to chemical scientists in both industrial and academic fields, with an emphasis onnew understanding of catalysts and catalytic reactions, new catalytic materials, new techniques, and new processes, especially those that have potential practical implications. Papers that report results of a thorough study or optimization of systems or processes that are well understood, widely studied, or minor variations of known ones are discouraged. Authors should include statements in a separate section "Justification for Publication" of how the manuscript fits the scope of the journal in the cover letter to the editors. Submissions without such justification will be rejected without review.