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Rough gold films as broadband absorbers for plasmonic enhancement of TiO2 photocurrent over 400-800?nm.


ABSTRACT: Recent years have witnessed an increasing interest in highly-efficient absorbers of visible light for the conversion of solar energy into electrochemical energy. This study presents a TiO2-Au bilayer that consists of a rough Au film under a TiO2 film, which aims to enhance the photocurrent of TiO2 over the whole visible region and may be the first attempt to use rough Au films to sensitize TiO2. Experiments show that the bilayer structure gives the optimal optical and photoelectrochemical performance when the TiO2 layer is 30?nm thick and the Au film is 100?nm, measuring the absorption 80-90% over 400-800?nm and the photocurrent intensity of 15??A·cm(-2), much better than those of the TiO2-AuNP hybrid (i.e., Au nanoparticle covered by the TiO2 film) and the bare TiO2 film. The superior properties of the TiO2-Au bilayer can be attributed to the rough Au film as the plasmonic visible-light sensitizer and the photoactive TiO2 film as the electron accepter. As the Au film is fully covered by the TiO2 film, the TiO2-Au bilayer avoids the photocorrosion and leakage of Au materials and is expected to be stable for long-term operation, making it an excellent photoelectrode for the conversion of solar energy into electrochemical energy in the applications of water splitting, photocatalysis and photosynthesis.

SUBMITTER: Tan F 

PROVIDER: S-EPMC5016800 | biostudies-other | 2016

REPOSITORIES: biostudies-other

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Rough gold films as broadband absorbers for plasmonic enhancement of TiO2 photocurrent over 400-800 nm.

Tan Furui F   Li Tenghao T   Wang Ning N   Lai Sin Ki SK   Tsoi Chi Chung CC   Yu Weixing W   Zhang Xuming X  

Scientific reports 20160909


Recent years have witnessed an increasing interest in highly-efficient absorbers of visible light for the conversion of solar energy into electrochemical energy. This study presents a TiO2-Au bilayer that consists of a rough Au film under a TiO2 film, which aims to enhance the photocurrent of TiO2 over the whole visible region and may be the first attempt to use rough Au films to sensitize TiO2. Experiments show that the bilayer structure gives the optimal optical and photoelectrochemical perfor  ...[more]

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