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Solar CO<sub>2</sub> Reduction Enabled by Cascade Hole Migration

Yihan Chen, Shaojun Lu, Qing Chen, Zhuang-Yang Li, Junrong Zhu, Fang‐Xing Xiao

2023Inorganic Chemistry11 citationsDOI

Abstract

Solar-powered photocatalytic conversion of CO 2 to hydrocarbon fuels represents an emerging approach to solving the greenhouse effect. However, low charge separation efficiency, deficiency of surface catalytic active sites, and sluggish charge-transfer kinetics, together with the complicated reaction pathway, concurrently hinder the CO 2 reduction. Herein, we show the rational construction of transition metal chalcogenides (TMCs) heterostructure CO 2 reduction photosystems, wherein the TMC substrate is tightly integrated with amorphous oxygen-containing cobalt sulfide (CoSOH) by a solid non-conjugated polymer, i.e., poly(vinyl alcohol) (PVA), to customize the unidirectional charge-transfer pathway. In this well-defined multilayered nanoarchitecture, the PVA interim layer intercalated between TMCs and CoSOH acts as a hole-relaying mediator and meanwhile boosts CO 2 adsorption capacity, while CoSOH functions as a terminal hole-collecting reservoir, stimulating the charge transport kinetics and boosting the charge separation over TMCs. This peculiar interface configuration and charge transport characteristics endow TMC/PVA/CoSOH heterostructures with significantly enhanced visible-light-driven photoactivity and CO 2 conversion. Based on the intermediates probed during the photocatalytic CO 2 reduction reaction, the photocatalytic mechanism was determined. Our work would inspire sparkling ideas to mediate the charge transfer over semiconductor for solar carbon neutral conversion.

Topics & Concepts

ChemistryPhotocatalysisHeterojunctionChemical engineeringCharge carrierPhotochemistryNanotechnologyCatalysisOptoelectronicsMaterials scienceOrganic chemistryEngineeringAdvanced Photocatalysis TechniquesPerovskite Materials and ApplicationsCO2 Reduction Techniques and Catalysts
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