Sustained solar hydrogen generation using a dye-sensitised NiO photocathode/BiVO4 tandem photo-electrochemical device

Tong, Lei; Iwase, Akihide; Nattestad, Andrew; Bach, Udo; Weidelener, Martin; Gotz, Gunther; Mishra, Amaresh; Bauerle, Peter; Amal, Rose; Wallace, Gordon; Mozer, Attila

Sustained solar hydrogen generation using a dye-sensitised NiO photocathode/BiVO4 tandem photo-electrochemical device

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posted on 2024-11-14, 15:34 authored by Lei Tong, Akihide Iwase, Andrew Nattestad, Udo Bach, Martin Weidelener, Gunther Gotz, Amaresh Mishra, Peter Bauerle, Rose Amal, Gordon WallaceGordon Wallace, Attila MozerAttila Mozer

Solar hydrogen generation sustained for at least several hours is demonstrated using a dye-sensitised nickel(II) oxide photocathode and BiVO4 photoanode connected in a tandem configuration. H2 evolution rate is 120 nmol h−1 (>80% faradaic efficiency) without electrical bias or sacrificial oxidant/reductant, at pH = 7 using visible light (>420 nm).

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Tong, L., Iwase, A., Nattestad, A., Bach, U., Weidelener, M., Gotz, G., Mishra, A., Bauerle, P., Amal, R., Wallace, G. G. & Mozer, A. J. (2012). Sustained solar hydrogen generation using a dye-sensitised NiO photocathode/BiVO4 tandem photo-electrochemical device. Energy and Environmental Science, 5 (11), 9472-9475.

Journal title

Energy and Environmental Science

Volume

5

Issue

11

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9472-9475

Publisher website/DOI

https://doi.org/10.1039/c2ee22866a

Language

English

RIS ID

69515

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hydrogen sensitised tandem photo generation photocathode dye electrochemical nio device sustained solar bivo4

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Sustained solar hydrogen generation using a dye-sensitised NiO photocathode/BiVO4 tandem photo-electrochemical device

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