Facet effect on nanosheet Co3O4 catalysts for toluene oxidation: Decisive role of Co3+ and reaction-induced oxygen vacancy

Rui Liu; Yuting Chu; Yiming Li; Kaijie Li; Tong Li; Hongbo Yu; Rui Liang; Yipei Chen; Tao Wu; Hongfeng Yin

doi:10.1016/j.jece.2024.112640

Facet effect on nanosheet Co₃O₄ catalysts for toluene oxidation: Decisive role of Co³⁺ and reaction-induced oxygen vacancy

Rui Liu, Yuting Chu, Yiming Li, Kaijie Li, Tong Li, Hongbo Yu, Rui Liang, Yipei Chen, Tao Wu, Hongfeng Yin

Research output: Journal Publication › Article › peer-review

3 Citations (Scopus)

Abstract

Co₃O₄ is recognized as an advantageous material for harmful VOC abatement. In this paper, three types of Co₃O₄ catalysts exhibiting either nanosheet morphology or nanosheet tissue structure were synthesized and applied in the combustion of toluene. The characterization results highlight the significance of Co³⁺ species over surface oxygen. Moreover, the oxygen vacancies of the catalyst formed during the reaction process were found to play a more critical role in influencing the catalytic performance than the oxygen vacancies present in the original catalyst. Through this study, we gained valuable insights into the facets, Co³⁺ species, and oxygen vacancies, which hold promising potential for enhancing the development of Co₃O₄ catalytic material for practical applications in toluene degradation.

Original language	English
Article number	112640
Journal	Journal of Environmental Chemical Engineering
Volume	12
Issue number	3
DOIs	https://doi.org/10.1016/j.jece.2024.112640
Publication status	Published - Jun 2024

Keywords

Co
CoO
Facet
Nanosheet morphology
Oxygen vacancy
Toluene combustion

ASJC Scopus subject areas

Chemical Engineering (miscellaneous)
Waste Management and Disposal
Pollution
Process Chemistry and Technology

Access to Document

10.1016/j.jece.2024.112640

Cite this

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title = "Facet effect on nanosheet Co3O4 catalysts for toluene oxidation: Decisive role of Co3+ and reaction-induced oxygen vacancy",

abstract = "Co3O4 is recognized as an advantageous material for harmful VOC abatement. In this paper, three types of Co3O4 catalysts exhibiting either nanosheet morphology or nanosheet tissue structure were synthesized and applied in the combustion of toluene. The characterization results highlight the significance of Co3+ species over surface oxygen. Moreover, the oxygen vacancies of the catalyst formed during the reaction process were found to play a more critical role in influencing the catalytic performance than the oxygen vacancies present in the original catalyst. Through this study, we gained valuable insights into the facets, Co3+ species, and oxygen vacancies, which hold promising potential for enhancing the development of Co3O4 catalytic material for practical applications in toluene degradation.",

keywords = "Co, CoO, Facet, Nanosheet morphology, Oxygen vacancy, Toluene combustion",

author = "Rui Liu and Yuting Chu and Yiming Li and Kaijie Li and Tong Li and Hongbo Yu and Rui Liang and Yipei Chen and Tao Wu and Hongfeng Yin",

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doi = "10.1016/j.jece.2024.112640",

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T1 - Facet effect on nanosheet Co3O4 catalysts for toluene oxidation

T2 - Decisive role of Co3+ and reaction-induced oxygen vacancy

AU - Liu, Rui

AU - Chu, Yuting

AU - Li, Yiming

AU - Li, Kaijie

AU - Li, Tong

AU - Yu, Hongbo

AU - Liang, Rui

AU - Chen, Yipei

AU - Wu, Tao

AU - Yin, Hongfeng

PY - 2024/6

Y1 - 2024/6

N2 - Co3O4 is recognized as an advantageous material for harmful VOC abatement. In this paper, three types of Co3O4 catalysts exhibiting either nanosheet morphology or nanosheet tissue structure were synthesized and applied in the combustion of toluene. The characterization results highlight the significance of Co3+ species over surface oxygen. Moreover, the oxygen vacancies of the catalyst formed during the reaction process were found to play a more critical role in influencing the catalytic performance than the oxygen vacancies present in the original catalyst. Through this study, we gained valuable insights into the facets, Co3+ species, and oxygen vacancies, which hold promising potential for enhancing the development of Co3O4 catalytic material for practical applications in toluene degradation.

AB - Co3O4 is recognized as an advantageous material for harmful VOC abatement. In this paper, three types of Co3O4 catalysts exhibiting either nanosheet morphology or nanosheet tissue structure were synthesized and applied in the combustion of toluene. The characterization results highlight the significance of Co3+ species over surface oxygen. Moreover, the oxygen vacancies of the catalyst formed during the reaction process were found to play a more critical role in influencing the catalytic performance than the oxygen vacancies present in the original catalyst. Through this study, we gained valuable insights into the facets, Co3+ species, and oxygen vacancies, which hold promising potential for enhancing the development of Co3O4 catalytic material for practical applications in toluene degradation.

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KW - CoO

KW - Facet

KW - Nanosheet morphology

KW - Oxygen vacancy

KW - Toluene combustion

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