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Facile preparation and efficient MnxCoy porous nanosheets for the sustainable catalytic process of soot

Miaomiao Hu, Kun Zhou, Tingyi Zhao, Zheng Li, Xianhai Zeng, Di Yu, Xuehua Yu, Mingqin Zhao, Zhihui Shao, Qixiang Xu, Bing Cui

2022Green Energy & Environment21 citationsDOIOpen Access PDF

Abstract

The pursuit of high-performance is worth considerable effort in catalysis for energy efficiency and environmental sustainability. To develop redox catalysts with superior performance for soot combustion, a series of MnxCoy oxides were synthesized using MgO template substitution. This method greatly improves the preparation and catalytic efficiency and is more in line with the current theme of green catalysts and sustainable development. The resulting Mn1Co2.3 has a strong activation capability of gaseous oxygen due to a high concentration of Co3+ and Mn3+. The Mn doping enhanced the intrinsic activity by prompting oxygen vacancy formation and gaseous oxygen adsorption. The nanosheet morphology with abundant mesoporous significantly increased the solid–solid contact efficiency and improved the adsorption capability of gaseous reactants. The novel design of Mn1Co2.3 oxide enhanced its catalytic performance through a synergistic effect of Mn doping and the porous nanosheet morphology, showing significant potential for the preparation of high-performance soot combustion catalysts.

Topics & Concepts

CatalysisNanosheetSootMesoporous materialMaterials scienceAdsorptionChemical engineeringOxideCatalytic combustionCombustionRedoxPorosityOxygenInorganic chemistryNanotechnologyChemistryOrganic chemistryMetallurgyEngineeringComposite materialCatalytic Processes in Materials ScienceCatalysis and Oxidation ReactionsElectrocatalysts for Energy Conversion
Facile preparation and efficient MnxCoy porous nanosheets for the sustainable catalytic process of soot | Litcius