Double-Hollow Au@CdS Yolk@Shell Nanostructures as Superior Plasmonic Photocatalysts for Solar Hydrogen Production

Yi An Chen, Yuhi Nakayasu, Yu Chang Lin, Jui Cheng Kao, Kai Chi Hsiao, Quang Tuyen Le, Kao Der Chang, Ming Chung Wu, Jyh Pin Chou, Chun Wei Pao, Tso Fu Mark Chang, Masato Sone, Chun Yi Chen*, Yu Chieh Lo*, Yan Gu Lin*, Akira Yamakata*, Yung Jung Hsu*

*此作品的通信作者

研究成果: Article同行評審

摘要

Structural engineering has proven effective in tailoring the photocatalytic properties of semiconductor nanostructures. In this work, a sophisticated double-hollow yolk@shell nanostructure composed of a plasmonic, mobile, hollow Au nanosphere (HGN) yolk and a permeable, hollow CdS shell is proposed to achieve remarkable solar hydrogen production. The shell thickness of HGN@CdS is finely adjusted from 7.7, 18.4 to 24.5 nm to investigate its influence on the photocatalytic performance. Compared with pure HGN, pure CdS, a physical mixture of HGN and CdS, and a counterpart single-hollow cit-Au@CdS yolk@shell nanostructure, HGN@CdS exhibits superior hydrogen production under visible light illumination (λ = 400–700 nm). The apparent quantum yield of hydrogen production reaches 8.2% at 320 nm, 6.2% at 420 nm, and 4.4% at 660 nm. The plasmon-enhanced activity at 660 nm is exceptional, surpassing the plasmon-induced photoactivities of the state-of-the-art plasmonic photocatalysts ever reported. The superiority of HGN@CdS originates from the creation of charge separation state at HGN/CdS heterojunction, the considerably long-lived hot electrons of plasmonic HGN, the magnified electric field, and the advantageous features of double-hollow yolk@shell nanostructures. The findings can provide a guideline for the rational design of versatile double-hollow yolk@shell nanostructures for widespread photocatalytic applications.

原文English
期刊Advanced Functional Materials
DOIs
出版狀態Accepted/In press - 2024

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