Unrevealing the potential of multicomponent metal-ion incorporation and sulfide modification in cobalt oxide for efficient water oxidation†

IF 3.2 Q2 CHEMISTRY, PHYSICAL Energy advances Pub Date : 2024-07-01 DOI:10.1039/D4YA00327F
Muzzayab Masood, Muhammad Aamir, Muhammad Ejaz Khan, Muhammad Sher, Khush Bakhat Akram, Hafiz Zahid Shafi, Hamad Almohamadi, M. d. Akhtaruzzaman and M. d. Shahiduzzaman
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Abstract

The design and development of highly efficient electrocatalysts from transition metals have shown a great potential for substituting precious metal-based electrocatalysts in water-splitting processes. Cobalt oxide is one of the promising materials for oxygen evolution reaction (OER). Modifying the metal oxide by the incorporation of metal ions and substituting sulfides are effective but challenging strategies for achieving efficient OER activities. In the present work, we report the synthesis of CdCoO and CdCoS electrocatalysts deposited on the surface of nickel foam. These electrocatalysts and their composites CdCoO@CuCoO and CdCoS@CuCoS could deliver high catalytic activity for oxygen evolution reaction. The as-synthesized electrocatalysts were characterized using pXRD, FTIR spectroscopy, Raman spectroscopy, XPS, and SEM techniques. The CdCoS showed a lower OER overpotential of 199 mV at a current density of 10 mA cm−2 and 522 mV at 60 mA cm−2. The incorporation of Cd2+ ions in the cobalt oxides optimized the electronic states around the Co active sites, leading to improved catalytic activities and a lower overpotential compared to other reported cobalt oxides (such as oxyhydroxides). This work emphasizes the effect of metal-ion incorporation and sulfide modification on the OER activity of cobalt oxide for water splitting and provides a multicomponent engineering strategy for designing efficient electrocatalysts.

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揭示氧化钴中多组分金属离子掺入和硫化物改性在高效水氧化中的潜力
氧化钴是氧气进化反应(OER)的理想材料之一。通过加入金属离子和硫化物改性来定制金属氧化物是实现高效 OER 的有效但具有挑战性的策略。在本研究中,我们报告了通过加入镉金属离子合成 CdCoO 和 CdCoS 材料的情况。与已报道的各种钴氧化物(氧氢化物)相比,钴氧化物(氧氢化物)周围的电子特性得到了优化,因而过电位更低,从而提高了催化活性。在 10 mAcm-2 条件下,CdCoS 的过电位为 199 mV,具有卓越的 OER 活性。这项工作强调了金属离子公司和硫化物改性对氧化钴水分离 OER 活性的影响,并为设计高效电催化剂提供了一种新的多组分工程策略。
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Correction: Steady states and kinetic modelling of the acid-catalysed ethanolysis of glucose, cellulose, and corn cob to ethyl levulinate. Back cover Fabrication methods, pseudocapacitance characteristics, and integration of conjugated conducting polymers in electrochemical energy storage devices Inside back cover Back cover
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