推进电催化固氮：来自分子体系的见解。

Advancing electrocatalytic nitrogen fixation: insights from molecular systems.

作者信息

Peters Jonas C

机构信息

California Institute of Technology, Pasadena, CA 91125, USA.

出版信息

Faraday Discuss. 2023 Jul 19;243(0):450-472. doi: 10.1039/d3fd00017f.

DOI:10.1039/d3fd00017f

PMID:37021388

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10524484/

Abstract

Nitrogen fixation has a rich history within the inorganic chemistry community. In recent years attention has (re)focused on developing electrocatalytic systems capable of mediating the nitrogen reduction reaction (NRR). Well-defined molecular catalyst systems have much to offer in this context. This personal perspective summarizes recent progress from our laboratory at Caltech, pulling together lessons learned from a number of studies we have conducted, placing them within the broader context of thermodynamic efficiency and selectivity for the NRR. In particular, proton-coupled electron transfer (PCET) provides an attractive strategy to achieve enhanced efficiency for the multi-electron/proton reduction of N to produce NH (or NH), and electrocatalytic PCET (PCET) an PCET mediator affords a promising means of mitigating HER such that the NRR can be achieved in a catalytic fashion.

摘要

在无机化学领域，固氮有着丰富的历史。近年来，注意力再次集中于开发能够介导氮还原反应（NRR）的电催化体系。在这方面，定义明确的分子催化剂体系有很大的优势。这篇个人观点总结了我们加州理工学院实验室最近的进展，汇集了我们从多项研究中汲取的经验教训，并将它们置于NRR热力学效率和选择性的更广泛背景下。特别是，质子耦合电子转移（PCET）为提高将N多电子/质子还原以生成NH₃（或NH₄⁺）的效率提供了一种有吸引力的策略，并且电催化PCET和PCET介质提供了一种减轻析氢反应（HER）的有前景的方法，从而使NRR能够以催化方式实现。

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推进电催化固氮：来自分子体系的见解。

Advancing electrocatalytic nitrogen fixation: insights from molecular systems.

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