Effect of Bipyridines on Catalytic Oxygen Reduction by Oxamidato‐Bridged Dicopper(II) Complexes

Author:

Liu Hao‐Cheng1ORCID,Li Shuai‐Kang1ORCID,Liu Zi‐Heng1ORCID,Liu Chang1ORCID,Yang Xing‐Jin1ORCID,Luo Zi‐Li1ORCID,Li Ran‐Ran1ORCID,Wang Tian‐Shun12ORCID,Zhang Hua‐Xin1ORCID

Affiliation:

1. Guangxi Key Laboratory of Electrochemical Energy Materials, School of Chemistry and Chemical Engineering Guangxi University Nanning Guangxi China

2. Research Institute of Agro‐Products Quality Safety and Testing Technology Guangxi Academy of Agriculture Science Nanning Guangxi China

Abstract

ABSTRACTThe oxygen reduction reaction (ORR) has a crucial impact on the energy conversion efficiency and the performance of fuel cells, it is urgent to deliver low‐cost efficient ORR catalysts for the aim to scale up the utilization of fuel cells. In this study, three oxamidate copper(II) complexes [Cu2(trans‐L)(H2O)2(ClO4)2]·2H2O (Cuox), [Cu2(cis‐L)(bpy)(ClO4)2]·CH3OH (Cuoxbpy), and [Cu2(cis‐L)(mebpy)(ClO4)](ClO4) (Cuoxmebpy) (L = N,N–bis(2–pyridylmethyl)oxamide, bpy = 2,2′–bipyridine, and mebpy = 4,4′–dimethyl–2,2′–bipyridine) were prepared and characterized. The configuration of L varied from the trans form to the cis form as the bipyridines were introduced to the dicopper complex. The redox properties of three oxamidate copper(II) complexes and their catalytic activities for the ORR were studied in neutral aqueous solutions. The ORR onset potentials by Cuox, Cuoxbpy, and Cuoxmebpy were 0.417, 0.502, and 0.481 versus RHE, respectively. Three complexes homogeneously catalyzed the ORR to predominantly generate H2O2. A bimolecular catalytic pathway was proposed for the ORR mediated by Cuox, whereas a single‐molecular pathway was by Cuoxbpy and Cuoxmebpy. This work demonstrated that oxamidate metal complexes are promising ORR catalyst candidates provided that their electronic structures are appropriately tuned by altering the substituent on the organic ligands.

Funder

Natural Science Foundation of Guangxi Province

National Natural Science Foundation of China

Publisher

Wiley

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