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Regulating Photocarrier Dynamics via Constructing 1D CdS/2D Semi‐Metallic MoReS₃ Schottky Junction Boosts Solar‐Driven CO₂ Conversion

Gangyang Lv, Liyuan Long, Feng Pan, Junjun Zhang, Wenqing Li, Peiran Feng, Jiahui Chen, Yong Zhou, Dunhui Wang

2025Small10 citationsDOIOpen Access PDF

Abstract

Abstract Heterostructure strategy is promising to overcome the dynamic bottleneck for fast photocarrier recombination competing with sluggish surface redox in photocatalytic CO 2 conversion but remains limitations for sacrificing stronger redox ability. The emerging Schottky junction is expected to conquer these problems, but dynamics mechanism remains unclear. Herein, 2D semi‐metallic MoReS 3 with Janus structure is adopted to in situ construct 1D/2D heterostructure on CdS nanowires. Beneficial from a matchable work function, band structure, and sufficient interfacial electronic coupling, the interfacial electric field (IEF) directing from CdS to MoReS 3 is successfully formed at 1D/2D heterointerface to construct the Schottky junction. In‐depth dynamics analysis demonstrates that IEF facilitates photoinduced excitons dissociating in CdS and drives photoholes to migrate into MoReS 3 , while the Schottky barrier prohibits the photoelectron transfer to MoReS 3 , inducing efficient photocarrier space separation. Superior catalytic activity of MoReS 3 further accelerates photohole consumption kinetics and successfully elongates the lifetime of photoelectrons at CB of CdS with a higher reduction ability to drive CO 2 conversion, synergistically resulting in sharply enhanced photocatalytic CO 2 conversion performance (CO production rate over 7‐times of CdS) with high selectivity (96.4%). This work deeply unravels the advantages and mechanism of Schottky junction to photocarrier dynamics regulation in the photocatalysis field.

Topics & Concepts

Materials scienceMoresSchottky barrierOptoelectronicsMetalSchottky diodeDynamics (music)PhotovoltaicsNanotechnologyChemical physicsChemistryPhotovoltaic systemPhysicsPoliticsAcousticsEcologyPolitical scienceBiologyMetallurgyLawDiodeAdvanced Photocatalysis Techniques2D Materials and ApplicationsMXene and MAX Phase Materials