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Bismuth atom tailoring of indium oxide surface frustrated Lewis pairs boosts heterogeneous CO2 photocatalytic hydrogenation

Tingjiang Yan, Na Li, Linlin Wang, Weiguang Ran, Paul N. Duchesne, Lili Wan, Nhat Truong Nguyen, Lu Wang, Meikun Xia, Geoffrey A. Ozin

2020Nature Communications290 citationsDOIOpen Access PDF

Abstract

Abstract The surface frustrated Lewis pairs (SFLPs) on defect-laden metal oxides provide catalytic sites to activate H 2 and CO 2 molecules and enable efficient gas-phase CO 2 photocatalysis. Lattice engineering of metal oxides provides a useful strategy to tailor the reactivity of SFLPs. Herein, a one-step solvothermal synthesis is developed that enables isomorphic replacement of Lewis acidic site In 3+ ions in In 2 O 3 by single-site Bi 3+ ions, thereby enhancing the propensity to activate CO 2 molecules. The so-formed Bi x In 2-x O 3 materials prove to be three orders of magnitude more photoactive for the reverse water gas shift reaction than In 2 O 3 itself, while also exhibiting notable photoactivity towards methanol production. The increased solar absorption efficiency and efficient charge-separation and transfer of Bi x In 2-x O 3 also contribute to the improved photocatalytic performance. These traits exemplify the opportunities that exist for atom-scale engineering in heterogeneous CO 2 photocatalysis, another step towards the vision of the solar CO 2 refinery.

Topics & Concepts

PhotocatalysisCatalysisOxideMaterials scienceLewis acids and basesMoleculeBismuthFrustrated Lewis pairPhotochemistryNanotechnologyIndiumInorganic chemistryChemistryOrganic chemistryOptoelectronicsMetallurgyAdvanced Photocatalysis TechniquesCovalent Organic Framework ApplicationsMetal-Organic Frameworks: Synthesis and Applications
Bismuth atom tailoring of indium oxide surface frustrated Lewis pairs boosts heterogeneous CO2 photocatalytic hydrogenation | Litcius