通过d-d轨道耦合对hcp-Ru进行电子调控以实现碱性电解质中稳健的电催化氢氧化反应

Electronic regulation of hcp-Ru by d-d orbital coupling for robust electrocatalytic hydrogen oxidation in alkaline electrolytes.

作者信息

Liu Yi, Cheng Lianrui, Zhou Shuqing, Niu Chenggong, Taylor Isimjan Tayirjan, Yang Xiulin

机构信息

Guangxi Key Laboratory of Low Carbon Energy Materials, School of Chemistry and Pharmaceutical Sciences, Guangxi Normal University, Guilin 541004, China.

Saudi Arabia Basic Industries Corporation (SABIC) at King Abdullah University of Science and Technology (KAUST), Thuwal 23955-6900, Saudi Arabia.

出版信息

J Colloid Interface Sci. 2025 Jan;677(Pt B):997-1004. doi: 10.1016/j.jcis.2024.08.136. Epub 2024 Aug 20.

DOI:10.1016/j.jcis.2024.08.136

PMID:39178678

Abstract

Bimetallic alloys hold exceptional promise as candidate materials because they offer a diverse parameter space for optimizing electronic structures and catalytic sites. Herein, we fabricate ruthenium-cobalt alloy nanoparticles uniformly dispersed within hollow mesoporous carbon spheres (hcp-RuCo@C) via impregnation and pyrolysis strategies. The intriguing hollow mesopore structure of hcp-RuCo@C facilitates efficient contact between active sites and reactants, thereby accelerating hydrogen oxidation reaction (HOR) kinetics. As anticipated, the hcp-RuCo@C showcases remarkable exchange current density and mass activity of 3.73 mA cm and 2.8 mA μg, respectively, surpassing those of commercial Pt/C and documented Ru-based electrocatalysts. Notably, hcp-RuCo@C demonstrates robust resistance to 1000 ppm CO, a trait lacking in Pt/C catalysts. Comprehensive experimental results reveal that the alloying-induced d-d electronic interactions between Ru and Co species significantly optimizes hydrogen binding energy (HBE) and hydroxide binding energy (OHBE). This optimization promotes the vital Volmer step, ameliorating the alkaline HOR properties of hcp-RuCo@C.

摘要

双金属合金作为候选材料具有巨大的潜力，因为它们为优化电子结构和催化位点提供了一个多样化的参数空间。在此，我们通过浸渍和热解策略制备了均匀分散在中空介孔碳球（hcp-RuCo@C）内的钌-钴合金纳米颗粒。hcp-RuCo@C引人注目的中空介孔结构促进了活性位点与反应物之间的有效接触，从而加速了氢氧化反应（HOR）动力学。正如预期的那样，hcp-RuCo@C分别展示出了显著的交换电流密度和质量活性，分别为3.73 mA cm和2.8 mA μg，超过了商业Pt/C和已报道的钌基电催化剂。值得注意的是，hcp-RuCo@C对1000 ppm CO表现出强大的抗性，这是Pt/C催化剂所缺乏的特性。综合实验结果表明，Ru和Co物种之间的合金化诱导的d-d电子相互作用显著优化了氢结合能（HBE）和氢氧根结合能（OHBE）。这种优化促进了至关重要的Volmer步骤，改善了hcp-RuCo@C的碱性HOR性能。

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通过d-d轨道耦合对hcp-Ru进行电子调控以实现碱性电解质中稳健的电催化氢氧化反应

Electronic regulation of hcp-Ru by d-d orbital coupling for robust electrocatalytic hydrogen oxidation in alkaline electrolytes.

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