The Flower-like Co3O4 Hierarchical Microspheres for Methane Catalytic Oxidation

Changpeng Lv; Dan Du; Chao Wang; Yingyue Qin; Jinlong Ge; Yansong Han; Junjie Zhu; Muxin Liu

doi:10.3390/inorganics10040049

Inorganics (Apr 2022)

The Flower-like Co3O4 Hierarchical Microspheres for Methane Catalytic Oxidation

Changpeng Lv,
Dan Du,
Chao Wang,
Yingyue Qin,
Jinlong Ge,
Yansong Han,
Junjie Zhu,
Muxin Liu

Affiliations

Changpeng Lv: Anhui Provincial Engineering Laboratory of Silicon-Based Materials, School of Materials and Chemical Engineering, Bengbu University, Bengbu 233030, China
Dan Du: Yankuang Technology Co., Ltd., Shandong Energy Group Co., Ltd., Jinan 250101, China
Chao Wang: Yankuang Technology Co., Ltd., Shandong Energy Group Co., Ltd., Jinan 250101, China
Yingyue Qin: Anhui Provincial Engineering Laboratory of Silicon-Based Materials, School of Materials and Chemical Engineering, Bengbu University, Bengbu 233030, China
Jinlong Ge: Anhui Provincial Engineering Laboratory of Silicon-Based Materials, School of Materials and Chemical Engineering, Bengbu University, Bengbu 233030, China
Yansong Han: Anhui Provincial Engineering Laboratory of Silicon-Based Materials, School of Materials and Chemical Engineering, Bengbu University, Bengbu 233030, China
Junjie Zhu: Anhui Provincial Engineering Laboratory of Silicon-Based Materials, School of Materials and Chemical Engineering, Bengbu University, Bengbu 233030, China
Muxin Liu: Anhui Provincial Engineering Laboratory of Silicon-Based Materials, School of Materials and Chemical Engineering, Bengbu University, Bengbu 233030, China

DOI: https://doi.org/10.3390/inorganics10040049
Journal volume & issue: Vol. 10, no. 4
p. 49

Abstract

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The development of non-noble Co3O4 catalysts exposing highly active crystal planes to low-temperature methane oxidation is still a challenge. Hence, a facile solvothermal method was adapted to construe flower-like Co3O4 hierarchical microspheres (Co3O4-FL), which are composed of nanosheets with dominantly exposed {112} crystal planes. The flower-like hierarchical structure not only promotes the desorption of high levels of active surface oxygen and enhances reducibility, but also facilitates an increase in lattice oxygen as the active species. As a result, Co3O4-FL catalysts offer improved methane oxidation, with a half methane conversion temperature (T50) of 380 °C (21,000 mL g−1 h−1), which is much lower than that of commercial Co3O4 catalysts (Co3O4-C). This study will provide guidance for non-noble metal catalyst design and preparation for methane oxidation and other oxidative reactions.

Published in Inorganics

ISSN: 2304-6740 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Science: Chemistry: Inorganic chemistry
Website: http://www.mdpi.com/journal/Inorganics

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