Selectively anchoring single atoms on specific sites of supports for improved oxygen evolution

Impact Factor:

14.919

DOI number:

10.1038/s41467-022-30148-3

Journal:

Nat. Commun.

Key Words:

catalysis, catalyst, chemical bonding, oxygen

Abstract:

The homogeneity of single-atom catalysts is only to the first-order approximation when all isolated metal centers interact identically with the support. Since the realistic support with various topologies or defects offers diverse coordination environments, realizing real homogeneity requires precise control over the anchoring sites. In this work, we selectively anchor Ir single atoms onto the three-fold hollow sites (Ir1/TO–CoOOH) and oxygen vacancies (Ir1/VO–CoOOH) on defective CoOOH surface to investigate how the anchoring sites modulate catalytic performance. The oxygen evolution activities of Ir1/TO–CoOOH and Ir1/VO–CoOOH are improved relative to CoOOH through different mechanisms. For Ir1/TO–CoOOH, the strong electronic interaction between single-atom Ir and the support modifies the electronic structure of the active center for stronger electronic affinity to intermediates. For Ir1/VO–CoOOH, a hydrogen bonding is formed between the coordinated oxygen of single-atom Ir center and the oxygenated intermediates, which stabilizes the intermediates and lowers the energy barrier of the rate-determining step.

Co-author:

Ruyang Wang, Sunpei Hu, Hongliang Li, Ming Zuo

First Author:

Zhirong Zhang, Chen Feng, Dongdi Wang

Correspondence Author:

Shiming Zhou,bYuan Kong, Jun Bao, Jie Zeng

Document Type:

SCI

Volume:

13

Issue:

1

Page Number:

2473

Translation or Not:

no

Date of Publication:

2022-05-05

Links to published journals:

https://www.nature.com/articles/s41467-022-30148-3