Clarifying the controversial catalytic active sites of Co3O4 for the oxygen evolution reaction

Yong Xu; Fengchu Zhang; Tian Sheng; Tao Ye; Ding Yi; Yijun Yang; Shoujie Liu; Xi Wang; Jiannian Yao

doi:10.1039/c9ta08379k

Clarifying the controversial catalytic active sites of Co₃O₄ for the oxygen evolution reaction

Yong Xu, Fengchu Zhang, Tian Sheng, Tao Ye, Ding Yi, Yijun Yang, Shoujie Liu, Xi Wang, Jiannian Yao

Research output: Contribution to journal › Article › peer-review

141 Scopus citations

Abstract

Insights into the real catalytic active site(s) of promising oxygen evolution reaction (OER) catalysts is significant for the further development of high-performance catalysts. Spinel cobalt oxide (Co₃O₄), with both tetrahedral (Co²⁺) and octahedral (Co³⁺) sites, has been widely studied as an efficient non-precious OER catalyst. However, controversial results still exist regarding its OER performance in determining the active sites from two different tetrahedral and octahedral sites. Here, we have designed size-controllable Co₃O₄ hexagonal platelets with (111) exposed surfaces only containing tetrahedral Co²⁺ sites as model catalysts, and systematically investigated the catalytic properties of the tetrahedral sites on the surface of the (111) plane and the octahedral sites on the surface of the (110)-B plane for the OER using density functional theory (DFT) and various characterization methods.

Original language	English
Pages (from-to)	23191-23198
Number of pages	8
Journal	Journal of Materials Chemistry A
Volume	7
Issue number	40
DOIs	https://doi.org/10.1039/c9ta08379k
State	Published - 2019
Externally published	Yes

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title = "Clarifying the controversial catalytic active sites of Co3O4 for the oxygen evolution reaction",

abstract = "Insights into the real catalytic active site(s) of promising oxygen evolution reaction (OER) catalysts is significant for the further development of high-performance catalysts. Spinel cobalt oxide (Co3O4), with both tetrahedral (Co2+) and octahedral (Co3+) sites, has been widely studied as an efficient non-precious OER catalyst. However, controversial results still exist regarding its OER performance in determining the active sites from two different tetrahedral and octahedral sites. Here, we have designed size-controllable Co3O4 hexagonal platelets with (111) exposed surfaces only containing tetrahedral Co2+ sites as model catalysts, and systematically investigated the catalytic properties of the tetrahedral sites on the surface of the (111) plane and the octahedral sites on the surface of the (110)-B plane for the OER using density functional theory (DFT) and various characterization methods.",

author = "Yong Xu and Fengchu Zhang and Tian Sheng and Tao Ye and Ding Yi and Yijun Yang and Shoujie Liu and Xi Wang and Jiannian Yao",

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year = "2019",

doi = "10.1039/c9ta08379k",

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TY - JOUR

T1 - Clarifying the controversial catalytic active sites of Co3O4 for the oxygen evolution reaction

AU - Xu, Yong

AU - Zhang, Fengchu

AU - Sheng, Tian

AU - Ye, Tao

AU - Yi, Ding

AU - Yang, Yijun

AU - Liu, Shoujie

AU - Wang, Xi

AU - Yao, Jiannian

PY - 2019

Y1 - 2019

N2 - Insights into the real catalytic active site(s) of promising oxygen evolution reaction (OER) catalysts is significant for the further development of high-performance catalysts. Spinel cobalt oxide (Co3O4), with both tetrahedral (Co2+) and octahedral (Co3+) sites, has been widely studied as an efficient non-precious OER catalyst. However, controversial results still exist regarding its OER performance in determining the active sites from two different tetrahedral and octahedral sites. Here, we have designed size-controllable Co3O4 hexagonal platelets with (111) exposed surfaces only containing tetrahedral Co2+ sites as model catalysts, and systematically investigated the catalytic properties of the tetrahedral sites on the surface of the (111) plane and the octahedral sites on the surface of the (110)-B plane for the OER using density functional theory (DFT) and various characterization methods.

AB - Insights into the real catalytic active site(s) of promising oxygen evolution reaction (OER) catalysts is significant for the further development of high-performance catalysts. Spinel cobalt oxide (Co3O4), with both tetrahedral (Co2+) and octahedral (Co3+) sites, has been widely studied as an efficient non-precious OER catalyst. However, controversial results still exist regarding its OER performance in determining the active sites from two different tetrahedral and octahedral sites. Here, we have designed size-controllable Co3O4 hexagonal platelets with (111) exposed surfaces only containing tetrahedral Co2+ sites as model catalysts, and systematically investigated the catalytic properties of the tetrahedral sites on the surface of the (111) plane and the octahedral sites on the surface of the (110)-B plane for the OER using density functional theory (DFT) and various characterization methods.

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SP - 23191

EP - 23198

JO - Journal of Materials Chemistry A

JF - Journal of Materials Chemistry A

IS - 40

ER -

Clarifying the controversial catalytic active sites of Co₃O₄ for the oxygen evolution reaction

Abstract

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