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Rich oxygen vacancies in core–shell structured Co3O4-CuO-ZnO@ZIF-8 for boosting CO2 hydrogenation to methanol

Xiaoguang San, Genxiong Kang, Lei Zhang, Jia Cui, Dan Meng, Jian Qi, Quan Jin

2024Advanced Powder Technology15 citationsDOIOpen Access PDF

Abstract

Converting carbon dioxide (CO 2 ) into high-quality methanol to alleviate the energy crisis is a promising strategy. However, as a traditional catalyst for CO 2 hydrogenation to methanol, Cu/ZnO exhibits low CO 2 conversion and low methanol selectivity at low temperature. In order to improve the catalytic performance of CO 2 hydrogenation to methanol, Co 3 O 4 was introduced to form Co 3 O 4 -CuO-ZnO with flower-like structure, and then diamond-shaped ZIF-8 particles with large specific surface area and rich oxygen vacancies were synthesized on the surface of Co 3 O 4 -CuO-ZnO by hydrothermal method. A series of characterizations showed that the synthesis of ZIF-8 greatly increased the specific surface area of the catalyst. The oxygen vacancy is the site of CO 2 adsorption and activation, and stabilizes the reaction intermediate, which promotes the conversion of CO 2 and the formation of methanol. The introduction of Co promotes the formation of the alloy phase, enhances the interaction between the metals, makes the active center more dispersed, reduces the sintering of the catalyst, and thus exhibits better catalytic performance. Among co-precipitated CuO-ZnO, hydrothermal CuO-ZnO, CuO-ZnO@ZIF-8, Co 3 O 4 -CuO-ZnO and Co 3 O 4 -CuO-ZnO@ZIF-8 catalysts, Co 3 O 4 -CuO-ZnO@ZIF-8 exhibits the best catalytic performance (CO 2 conversion 16.06% and CH 3 OH selectivity 94.58%). Based on the above design, ZIF-8 and Co 3 O 4 synergistic CuO-ZnO catalyst effectively improved CO 2 conversion and CH 3 OH selectivity.

Topics & Concepts

Materials scienceBoosting (machine learning)MethanolChemical engineeringOxygenChemistryComputer scienceOrganic chemistryMachine learningEngineeringCatalysts for Methane ReformingCatalytic Processes in Materials ScienceCarbon dioxide utilization in catalysis
Rich oxygen vacancies in core–shell structured Co3O4-CuO-ZnO@ZIF-8 for boosting CO2 hydrogenation to methanol | Litcius