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Hydrogen Evolution Reactivity of Pentagonal Carbon Rings and p-d Orbital Hybridization Effect with Ru
Angewandte Chemie International Edition ( IF 16.1 ) Pub Date : 2024-09-14 , DOI: 10.1002/anie.202411125 Lei Gong 1 , Fanjie Xia 1 , Jiawei Zhu 1 , Xueqin Mu 1 , Ding Chen 1 , Hongyu Zhao 1 , Lei Chen 1 , Shichun Mu 2
Angewandte Chemie International Edition ( IF 16.1 ) Pub Date : 2024-09-14 , DOI: 10.1002/anie.202411125 Lei Gong 1 , Fanjie Xia 1 , Jiawei Zhu 1 , Xueqin Mu 1 , Ding Chen 1 , Hongyu Zhao 1 , Lei Chen 1 , Shichun Mu 2
Affiliation
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Topological pentagon defects endow carbon nanomaterial with intrinsic hydrogen evolution reactivity and draw forth a strong p-d orbital hybridization effect with Ru species, which induces favorable electron transfer and weakened hydrogen adsorption strength and reaction barrier of Ru sites, significantly driving electrocatalytic hydrogen production.
中文翻译:
五边形碳环的析氢反应性和 p-d 轨道杂化效应与 Ru
拓扑五边形缺陷赋予碳纳米材料本征的析氢反应性,并与 Ru 物种产生强烈的 p-d 轨道杂交效应,诱导有利的电子转移,削弱了 Ru 位点的氢吸附强度和反应势垒,显着推动了电催化制氢。
更新日期:2024-09-14
中文翻译:
五边形碳环的析氢反应性和 p-d 轨道杂化效应与 Ru
拓扑五边形缺陷赋予碳纳米材料本征的析氢反应性,并与 Ru 物种产生强烈的 p-d 轨道杂交效应,诱导有利的电子转移,削弱了 Ru 位点的氢吸附强度和反应势垒,显着推动了电催化制氢。
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