Enhanced Acetone Oxidation over the CeO2/Co3O4 Catalyst Derived from Metal–Organic Frameworks

Zheng, Yuxin; Zhao, Qian; Shan, Cangpeng; Lu, Shuangchun; Su, Yun; Han, Rui; Song, Chunfeng; Ji, Na; Ma, Degang; Liu, Qingling

doi:10.1021/acsami.0c04904

Cited by 108 publications

(48 citation statements)

References 54 publications

(80 reference statements)

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“…e result is similar to our previous reports [27]. After calcination, XRD patterns of the HPW@CoCeO sample display the intensity of the CoCe-MOF sample characteristic peaks decreased or even disappeared, and two strong diffraction peaks at 18.2 °and 28.7 °are assigned to cobaltosic oxide and cerium oxide, respectively [28], implying that the CoCe-MOF transformed to CoCeO after pyrolysis. is also indicates that the HPW@ CoCeO catalyst was successfully synthesized.…”

Section: Catalyst Characterizationsupporting

confidence: 90%

Bimetallic MOF-Derived Synthesis of Cobalt-Cerium Oxide Supported Phosphotungstic Acid Composites for the Oleic Acid Esterification

Zhang

Yang

Yao

et al. 2021

Journal of Chemistry

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The impregnation of phosphotungstic acid (HPW) with porous cobalt-cerium oxide (HPW@CoCeO) has been prepared by pyrolysis of CoCe-MOF and used for the production of methyl oleate from oleic acid and methanol. FTIR, XRD, SEM, TEM, N2 adsorption/desorption, and NH3-TPD were characterized for the prepared composites. Simultaneously, the effects of reaction time, substrate molar ratio, temperature, and catalyst loading on catalytic activity were highlighted, and the conversion of 67.2% was reached after 4 h at 60°C. Importantly, HPW@CoCeO was reusabe and reused more than eight times, and the oleic acid conversion could be maintained at 61.8% without significant activity loss. Thus, the HPW@CoCeO composite could be used as acid catalysts for sustainable energy production.

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Section: Catalyst Characterizationsupporting

confidence: 90%

Bimetallic MOF-Derived Synthesis of Cobalt-Cerium Oxide Supported Phosphotungstic Acid Composites for the Oleic Acid Esterification

Zhang

Yang

Yao

et al. 2021

Journal of Chemistry

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“…A sample with low-temperature reducibility generally exhibits better performance since the rapid redox cycle is favourable for oxygen activation. 80,81 The adsorption performance of gaseous O 2 and benzene was evaluated using the TPD technique. Fig.…”

Section: Kinetic and Surface Property Analysismentioning

confidence: 99%

Interfacial effects in CuO/Co₃O₄ heterostructures enhance benzene catalytic oxidation performance

Luo

Xia

et al. 2022

Environ. Sci.: Nano

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“…Table 1 shows S BET , total pore volume and average radii of the pore of the all samples according to N 2 adsorption‐desorption experiments. Compared with the other samples, Co 3 O 4 ‐A has better adsorption capacity, increasing the opportunity for the contact between CB and active sites, result in a better catalytic performance [47–48] . The irregular holes existing in the catalyst is working as the free shuttles of VOCs reaction gas between catalyst active sites and VOCs molecules, and enhancing catalytic oxidation reaction of VOCs.…”

Section: Resultsmentioning

confidence: 99%

A Facile Method to Synthesize Co₃O₄ Catalyst for Efficient Chlorobenzene Combustion

Chen

et al. 2022

ChemistrySelect

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Preparation methods are essential for the synthesis of materials with diverse structures, which may lead to the different physicochemical properties. The activities of catalysts for volatile organic compounds (VOCs) combustion can be improved by optimizing the preparation methods. In this paper, a novel ammonium bicarbonate pyrolysis method is successfully applied to prepare Co3O4 catalyst (Co3O4‐A), which is not only facile in preparation, but also superior to the Co3O4 catalysts prepared by the hydrothermal, sol‐gel, MOFs pyrolysis and carbonate pyrolysis method in the performance of chlorobenzene catalytic oxidation with 90 % conversion and mineralization temperature at 310 and 325 °C, respectively (1000 ppm CB, Air, WHSV=60,000 mL ⋅ g−1 ⋅ h−1). Furthermore, Co3O4‐A catalyst can maintain high catalytic activity for a long time, and has high tolerance to water vapor, which indicates Co3O4‐A catalyst has a good potential application value in catalytic combustion of chlorobenzene.

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Enhanced Acetone Oxidation over the CeO₂/Co₃O₄ Catalyst Derived from Metal–Organic Frameworks

Cited by 108 publications

References 54 publications

Bimetallic MOF-Derived Synthesis of Cobalt-Cerium Oxide Supported Phosphotungstic Acid Composites for the Oleic Acid Esterification

Bimetallic MOF-Derived Synthesis of Cobalt-Cerium Oxide Supported Phosphotungstic Acid Composites for the Oleic Acid Esterification

Interfacial effects in CuO/Co₃O₄ heterostructures enhance benzene catalytic oxidation performance

A Facile Method to Synthesize Co₃O₄ Catalyst for Efficient Chlorobenzene Combustion

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Enhanced Acetone Oxidation over the CeO2/Co3O4 Catalyst Derived from Metal–Organic Frameworks

Cited by 108 publications

References 54 publications

Bimetallic MOF-Derived Synthesis of Cobalt-Cerium Oxide Supported Phosphotungstic Acid Composites for the Oleic Acid Esterification

Bimetallic MOF-Derived Synthesis of Cobalt-Cerium Oxide Supported Phosphotungstic Acid Composites for the Oleic Acid Esterification

Interfacial effects in CuO/Co3O4 heterostructures enhance benzene catalytic oxidation performance

A Facile Method to Synthesize Co3O4 Catalyst for Efficient Chlorobenzene Combustion

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Product

Resources

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Enhanced Acetone Oxidation over the CeO₂/Co₃O₄ Catalyst Derived from Metal–Organic Frameworks

Interfacial effects in CuO/Co₃O₄ heterostructures enhance benzene catalytic oxidation performance

A Facile Method to Synthesize Co₃O₄ Catalyst for Efficient Chlorobenzene Combustion