铂单晶上氧还原反应中的逆动力学同位素效应。

Inverse kinetic isotope effects in the oxygen reduction reaction at platinum single crystals.

作者信息

Yang Yao, Agarwal Rishi G, Hutchison Phillips, Rizo Rubén, Soudackov Alexander V, Lu Xinyao, Herrero Enrique, Feliu Juan M, Hammes-Schiffer Sharon, Mayer James M, Abruña Héctor D

机构信息

Department of Chemistry and Chemical Biology, Cornell University, Ithaca, NY, USA.

Department of Chemistry, Yale University, New Haven, CT, USA.

出版信息

Nat Chem. 2023 Feb;15(2):271-277. doi: 10.1038/s41557-022-01084-y. Epub 2022 Nov 10.

DOI:10.1038/s41557-022-01084-y

PMID:36357789

Abstract

Although the oxygen reduction reaction (ORR) involves multiple proton-coupled electron transfer processes, early studies reported the absence of kinetic isotope effects (KIEs) on polycrystalline platinum, probably due to the use of unpurified DO. Here we developed a methodology to prepare ultra-pure DO, which is indispensable for reliably investigating extremely surface-sensitive platinum single crystals. We find that Pt(111) exhibits much higher ORR activity in DO than in HO, with potential-dependent inverse KIEs of ~0.5, whereas Pt(100) and Pt(110) exhibit potential-independent inverse KIEs of ~0.8. Such inverse KIEs are closely correlated to the lower *OD coverage and weakened *OD binding strength relative to *OH, which, based on theoretical calculations, are attributed to the differences in their zero-point energies. This study suggests that the competing adsorption between *OH/*OD and *O probably plays an important role in the ORR rate-determining steps that involve a chemical step preceding an electrochemical step (CE mechanism).

摘要

尽管氧还原反应（ORR）涉及多个质子耦合电子转移过程，但早期研究报告称，在多晶铂上不存在动力学同位素效应（KIEs），这可能是由于使用了未纯化的重水（DO）。在此，我们开发了一种制备超纯重水的方法，这对于可靠地研究对表面极其敏感的铂单晶是必不可少的。我们发现，相对于轻水（HO），Pt(111)在重水中表现出更高的ORR活性，其与电位相关的反向KIE约为0.5，而Pt(100)和Pt(110)表现出与电位无关的反向KIE约为0.8。这种反向KIE与相对于OH而言更低的OD覆盖率和减弱的*OD结合强度密切相关，基于理论计算，这归因于它们零点能的差异。这项研究表明，*OH/OD与O之间的竞争吸附可能在涉及电化学步骤之前的化学步骤的ORR速率决定步骤（CE机制）中起重要作用。

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铂单晶上氧还原反应中的逆动力学同位素效应。

Inverse kinetic isotope effects in the oxygen reduction reaction at platinum single crystals.

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