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Tunable Interfacial Charge Transfer in a 2D–2D Composite for Efficient Visible‐Light‐Driven CO<sub>2</sub> Conversion

Lizhong Liu, Zhongliao Wang, Jinfeng Zhang, Olim Ruzimuradov, Kai Dai, Jingxiang Low

2023Advanced Materials203 citationsDOIOpen Access PDF

Abstract

Abstract Photocatalytic CO 2 conversion for hydrocarbon fuel production has been known as one of the most promising strategies for achieving carbon neutrality. Yet, its conversion efficiency remains unsatisfactory mainly due to its severe charge‐transfer resistance and slow charge kinetics. Herein, a tunable interfacial charge transfer on an oxygen‐vacancies‐modified bismuth molybdate nanoflower assembled by 2D nanosheets (BMOVs) and 2D bismuthene composite (Bi/BMOVs) is demonstrated for photocatalytic CO 2 conversion. Specifically, the meticulous design of the Ohmic contact formed between BMOVs and bismuthene can allow the modulation of the interfacial charge‐transfer resistance. According to density functional theory (DFT) simulations, it is ascertained that such exceptional charge kinetics is attributed to the tunable built‐in electric field (IEF) of the Ohmic contact. As such, the photocatalytic CO 2 reduction performance of the optimized Bi/BMOVs (CO and CH 4 productions rate of 169.93 and 4.65 µmol g −1 h −1 , respectively) is ca. 10 times higher than that of the pristine BMO (CO and CH 4 production rates of 16.06 and 0.51 µmol g −1 h −1 , respectively). The tunable interfacial resistance of the Ohmic contact reported in this work can shed some important light on the design of highly efficient photocatalysts for both energy and environmental applications.

Topics & Concepts

Materials scienceOhmic contactPhotocatalysisKineticsComposite numberChemical engineeringContact resistanceGrapheneNanotechnologyOptoelectronicsCatalysisComposite materialOrganic chemistryQuantum mechanicsChemistryLayer (electronics)PhysicsEngineeringAdvanced Photocatalysis TechniquesPerovskite Materials and ApplicationsCovalent Organic Framework Applications