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Engineering Semi‐Reversed Quantum Well Photocatalysts for Highly‐Efficient Solar‐to‐Fuels Conversion

Qing Yuan, Jindou Huang, Ang Li, Na Lu, Wei Lü, Yongan Zhu, Zhenyi Zhang

2024Advanced Materials41 citationsDOIOpen Access PDF

Abstract

Abstract Semiconductor quantum wells (QWs) exhibit high charge‐utilization efficiency for light‐emitting applications due to their strong charge confinement effect. Inspired by this effect, herein, this work proposes a new idea to significantly improve the photo‐generated charge separation for attaining a highly‐efficient solar‐to‐fuels conversion process through “semi‐reversing” the conventional QWs to confine only the photo‐generated electrons. This electron confinement‐improved charge separation is implemented in the well‐designed model of the CdS/TiO 2 /CdS semi‐reversed QW (SRQW) structure. The latter is fabricated by selectively assembling CdS quantum dots (QDs) onto the {101} facets (ultra‐thin edge regions) of the TiO 2 nanosheets (NSs). Upon light excitation, the photo‐generated electrons of SRQW can be confined on the TiO 2 ‐{101} facets in the vicinity of the CdS/TiO 2 hetero‐interface. Thereby, the continuous multi‐electron injection to the adsorbed reactants on the interfacial active‐sites is significantly accelerated. Thus, the CdS/TiO 2 /CdS SRQW exhibits ≈35.7 and ≈56.0‐fold enhancements on the photocatalytic activities for water and CO 2 reduction, respectively, compared to those of pure TiO 2 . Correspondingly, its CH 4 ‐product selectivity is increased by ≈180%. This work provides a novel charge separation mechanism, which is of great importance for the design of the next‐generation quantum‐sized photocatalysts for solar‐to‐fuels conversion.

Topics & Concepts

Materials scienceNanotechnologyEngineering physicsPhotocatalysisChemical engineeringCatalysisOrganic chemistryEngineeringChemistryAdvanced Photocatalysis TechniquesCopper-based nanomaterials and applicationsTiO2 Photocatalysis and Solar Cells
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