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Construction of Low-Cost Z-Scheme Heterojunction Cu<sub>2</sub>O/PCN-250 Photocatalysts Simultaneously for the Enhanced Photoreduction of CO<sub>2</sub> to Alcohols and Photooxidation of Water

Miao-Miao Yang, Jia‐Min Cao, Guang‐Dong Qi, Xian-Yu Shen, Guanyu Yan, Ye Wang, Wen‐Wen Dong, Jun Zhao, Dong‐Sheng Li, Qichun Zhang

2023Inorganic Chemistry81 citationsDOI

Abstract

Solar-driven high-efficiency conversion of CO 2 with water vapor into high-value-added alcohols is a promising approach for reducing CO 2 emissions and achieving carbon neutrality. However, the rapid recombination of photogenerated carriers and low CO 2 adsorption capacity of photocatalysts are usually the factors that limit their applicability. Herein, a series of low-cost Z-scheme heterostructures Cu 2 O/PCN-250- x are constructed by in situ growth of ultrasmall Cu 2 O nanoparticles on PCN-250. A systematic investigation revealed that there is a strong interaction between Cu 2 O nanoparticles and PCN-250. The resulting Cu 2 O/PCN-250-2 exhibits excellent photogenerated carrier separation efficiency and CO 2 adsorption capacity, which dramatically promote the conversion of CO 2 into alcohols. Notably, the total yield of 268 μmol g cat –1 for the production of CH 3 OH and CH 3 H 2 OH is superior to that of isolated PCN-250 and Cu 2 O. This study provides a new perspective for the design of a Cu 2 O nanoparticle/metal–organic framework Z-scheme heterojunction for the reduction of CO 2 to alcohols with water vapor.

Topics & Concepts

ChemistryHeterojunctionAdsorptionWater vaporNanoparticleCarbon fibersChemical engineeringYield (engineering)PhotochemistryNanotechnologyOptoelectronicsOrganic chemistryComposite numberMaterials scienceComposite materialEngineeringMetallurgyAdvanced Photocatalysis TechniquesCO2 Reduction Techniques and CatalystsCopper-based nanomaterials and applications
Construction of Low-Cost Z-Scheme Heterojunction Cu<sub>2</sub>O/PCN-250 Photocatalysts Simultaneously for the Enhanced Photoreduction of CO<sub>2</sub> to Alcohols and Photooxidation of Water | Litcius