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  4. Fabrication of WO3 photoanode decorated with Au nanoplates and its enhanced photoelectrochemical properties
 
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Fabrication of WO3 photoanode decorated with Au nanoplates and its enhanced photoelectrochemical properties

Journal
Electrochimica Acta
Journal Volume
321
Date Issued
2019
Author(s)
Liu Y.
Chang Y.-S.
Hsu Y.-J.
Hwang B.-J.
Hsueh C.-H.
CHUN-HWAY HSUEH  
DOI
10.1016/j.electacta.2019.134674
URI
https://scholars.lib.ntu.edu.tw/handle/123456789/425027
URL
https://www2.scopus.com/inward/record.uri?eid=2-s2.0-85070580781&doi=10.1016%2fj.electacta.2019.134674&partnerID=40&md5=083ba21962c13f2e60cdc5ab189a556e
Abstract
In the present work, we improved the photoelectrochemical (PEC) performance of tungsten trioxide (WO3) photoanode by decorating WO3 plates with Au nanoplates. WO3 plates were fabricated on FTO-coated glass by hydrothermal treatment and Au nanoplates were incorporated by immersing the substrates in Au nanoplates solution under different periods of time. Our study revealed that compared with pristine WO3, the Au-WO3 nanocomposite performed enhanced photocurrent density under irradiation of the simulated sunlight. This improved PEC performance was benefited from the extension of light absorption resulting from the surface plasmon resonance effect of Au nanoplates at about 650 nm wavelength, and it was verified by UV¡Vvis absorption spectra. The incident photon-to-current conversion efficiency measurements revealed improved photoactivity after decoration of WO3 with Au nanoplates. This study provided a facile method to decorate Au nanoplates on WO3 photoanodes with enhanced performance for solar energy conversion. ? 2019 Elsevier Ltd
Subjects
Photoelectrochemistry
Surface plasmon resonance
Water splitting
WO3
SDGs

[SDGs]SDG7

Other Subjects
Energy conversion; Fabrication; Light absorption; Nanostructures; Photoelectrochemical cells; Plasmons; Solar energy; Surface plasmon resonance; Tungsten compounds; Hydrothermal treatments; Incident photon-to-current conversion efficiencies; Photo-electrochemistry; Photocurrent density; Photoelectrochemical properties; Photoelectrochemicals; Surface plasmon resonance effects; Water splitting; Gold
Type
journal article

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