Wet-chemical intercalation of Bi4TaO8Br with self-adaptive structural deformation for enhanced photocatalytic performance

Wet-chemical intercalation of Bi4TaO8Br with self-adaptive structural deformation for enhanced photocatalytic performance

A small specific surface area and severe charge carrier recombination greatly limit the photocatalytic efficiency of semiconductors. Herein, we developed a novel wet-chemical intercalation strategy by using the NaBH4 reagent for in situ intercalation-assisted expansion and surface/interface reconstr...

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Veröffentlicht in:Chemical communications (Cambridge, England) England), 2023-08, Vol.59 (67), p.10145-10148
Hauptverfasser: Sa, Ke, Zhang, Xiaorui, Zeng, Zikang, Liang, Yujun, Chuang, Han
Format: Artikel
Sprache:eng
Schlagworte:
Carrier recombination
Current carriers
Intercalation
Reagents
Specific surface
Surface area
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Zusammenfassung:A small specific surface area and severe charge carrier recombination greatly limit the photocatalytic efficiency of semiconductors. Herein, we developed a novel wet-chemical intercalation strategy by using the NaBH4 reagent for in situ intercalation-assisted expansion and surface/interface reconstruction of Bi4TaO8Br, which exhibits an enhanced specific surface area and charge carrier separation features. This work highlights intercalation of semiconductors for achieving enhanced photocatalytic performance and provides a new idea to synergistically regulate the morphology and surface/interface composition of semiconductors.
ISSN:1359-7345
1364-548X
DOI:10.1039/d3cc02874g