吡啶氮在碳基电催化剂氧还原反应机理中的作用

Role of Pyridinic Nitrogen in the Mechanism of the Oxygen Reduction Reaction on Carbon Electrocatalysts.

作者信息

Takeyasu Kotaro, Furukawa Moeko, Shimoyama Yuto, Singh Santosh K, Nakamura Junji

机构信息

Faculty of Pure and Applied Sciences, Tsukuba Research Centre for Energy and Materials Science, University of Tsukuba, 1-1-1 Tennodai, Tsukuba, Ibaraki, 305-8573, Japan.

Graduate School of Science and Technology, University of Tsukuba, 1-1-1 Tennodai, Tsukuba, Ibaraki, 305-8573, Japan.

出版信息

Angew Chem Int Ed Engl. 2021 Mar 1;60(10):5121-5124. doi: 10.1002/anie.202014323. Epub 2021 Jan 4.

DOI:10.1002/anie.202014323

PMID:33174332

Abstract

The introduction of pyridinic nitrogen (pyri-N) into carbon-based electrocatalysts for the oxygen reduction reaction is considered to create new active sites. Herein, the role of pyri-N in such catalysts was investigated from a mechanistic viewpoint using carbon black (CB)-supported pyri-N-containing molecules as model catalysts; the highest activity was observed for 1,10-phenanthroline/CB. X-ray photoemission spectroscopy showed that in acidic electrolytes, both pyri-N atoms of 1,10-phenanthroline could be protonated to form pyridinium ions (pyri-NH ). In O -saturated electrolytes, one of the pyri-NH species was reduced to pyri-NH upon the application of a potential; no such reduction was observed in N -saturated electrolytes. This behavior was ascribed to electrochemical reduction of pyri-NH occurring simultaneously with the thermal adsorption of O , as supported by DFT calculations. According to these calculations, the coupled reduction was promoted by hydrophobic environments.

摘要

将吡啶氮（pyri-N）引入用于氧还原反应的碳基电催化剂中被认为会产生新的活性位点。在此，使用炭黑（CB）负载的含pyri-N分子作为模型催化剂，从机理角度研究了pyri-N在这类催化剂中的作用；观察到1,10-菲咯啉/CB具有最高活性。X射线光电子能谱表明，在酸性电解质中，1,10-菲咯啉的两个pyri-N原子都可以质子化形成吡啶鎓离子（pyri-NH ）。在O 饱和的电解质中，施加电势时，其中一个pyri-NH 物种会还原为pyri-NH ；在N 饱和的电解质中未观察到这种还原现象。这种行为归因于pyri-NH 的电化学还原与O 的热吸附同时发生，密度泛函理论计算支持了这一点。根据这些计算，疏水环境促进了耦合还原。

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吡啶氮在碳基电催化剂氧还原反应机理中的作用

Role of Pyridinic Nitrogen in the Mechanism of the Oxygen Reduction Reaction on Carbon Electrocatalysts.

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