Scale-up of BiVO4 photoanode for water splitting in a photoelectrochemical cell : issues and challenges
The monoclinic scheelite‐type BiVO4 is recognized as one of the promising candidate materials for a photoanode because of its 9.1 % theoretical efficiency for half‐cell solar‐to‐hydrogen conversion. Although significant research efforts have been devoted to improving the performance of the photoelec...
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sg-ntu-dr.10356-859072023-07-14T15:51:33Z Scale-up of BiVO4 photoanode for water splitting in a photoelectrochemical cell : issues and challenges Yao, Xin Wang, Danping Zhao, Xin Ma, Susu Bassi, Prince Saurabh Yang, Guang Chen, Wei Chen, Zhong Sritharan, Thirumany School of Materials Science & Engineering Scale-up Photoanode DRNTU::Engineering::Materials The monoclinic scheelite‐type BiVO4 is recognized as one of the promising candidate materials for a photoanode because of its 9.1 % theoretical efficiency for half‐cell solar‐to‐hydrogen conversion. Although significant research efforts have been devoted to improving the performance of the photoelectrochemical cell (PEC) of this material, they have mainly been in small anode areas with only a handful of studies on scaled‐up sizes. Herein, a facile metal–organic decomposition synthesis method was used to produce scaled‐up Mo‐doped BiVO4 photoanodes. Multiple modifications were explored and incorporated to enhance the performance of the photoanode. A large‐area (5 cm×5 cm) photoanode was successfully prepared with all modifications. The resulting photoanode gave rise to an initial photocurrent density of 2.2 mA cm−2 at 1.23 V versus reversible hydrogen electrode, under AM 1.5G illumination in a PEC, which remained at 79 % of this value after 1 h of operation. A deleterious effect of the increased anode surface area on the photocurrent density was observed, which we termed the “areal effect”. Understanding the reasons for the areal effect is indispensable for the development of large‐scale PEC devices for water splitting. NRF (Natl Research Foundation, S’pore) Accepted version 2019-05-17T02:15:02Z 2019-12-06T16:12:28Z 2019-05-17T02:15:02Z 2019-12-06T16:12:28Z 2018 Journal Article Yao, X., Wang, D., Zhao, X., Ma, S., Bassi, P. S., Yang, G., . . . Sritharan, T. (2018). Scale-up of BiVO4 photoanode for water splitting in a photoelectrochemical cell : issues and challenges. Energy Technology, 6(1), 100-109. doi:10.1002/ente.201700619 2194-4288 https://hdl.handle.net/10356/85907 http://hdl.handle.net/10220/48246 10.1002/ente.201700619 en Energy Technology © 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim. This is the peer reviewed version of the following article: Yao, X., Wang, D., Zhao, X., Ma, S., Bassi, P. S., Yang, G., . . . Sritharan, T. (2018). Scale-up of BiVO4 photoanode for water splitting in a photoelectrochemical cell : issues and challenges. Energy Technology, 6(1), 100-109., which has been published in final form at http://dx.doi.org/10.1002/ente.201700619. This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions for Use of Self-Archived Versions. 24 p. application/pdf |
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Scale-up Photoanode DRNTU::Engineering::Materials Yao, Xin Wang, Danping Zhao, Xin Ma, Susu Bassi, Prince Saurabh Yang, Guang Chen, Wei Chen, Zhong Sritharan, Thirumany Scale-up of BiVO4 photoanode for water splitting in a photoelectrochemical cell : issues and challenges |
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The monoclinic scheelite‐type BiVO4 is recognized as one of the promising candidate materials for a photoanode because of its 9.1 % theoretical efficiency for half‐cell solar‐to‐hydrogen conversion. Although significant research efforts have been devoted to improving the performance of the photoelectrochemical cell (PEC) of this material, they have mainly been in small anode areas with only a handful of studies on scaled‐up sizes. Herein, a facile metal–organic decomposition synthesis method was used to produce scaled‐up Mo‐doped BiVO4 photoanodes. Multiple modifications were explored and incorporated to enhance the performance of the photoanode. A large‐area (5 cm×5 cm) photoanode was successfully prepared with all modifications. The resulting photoanode gave rise to an initial photocurrent density of 2.2 mA cm−2 at 1.23 V versus reversible hydrogen electrode, under AM 1.5G illumination in a PEC, which remained at 79 % of this value after 1 h of operation. A deleterious effect of the increased anode surface area on the photocurrent density was observed, which we termed the “areal effect”. Understanding the reasons for the areal effect is indispensable for the development of large‐scale PEC devices for water splitting. |
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School of Materials Science & Engineering |
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School of Materials Science & Engineering Yao, Xin Wang, Danping Zhao, Xin Ma, Susu Bassi, Prince Saurabh Yang, Guang Chen, Wei Chen, Zhong Sritharan, Thirumany |
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Article |
author |
Yao, Xin Wang, Danping Zhao, Xin Ma, Susu Bassi, Prince Saurabh Yang, Guang Chen, Wei Chen, Zhong Sritharan, Thirumany |
author_sort |
Yao, Xin |
title |
Scale-up of BiVO4 photoanode for water splitting in a photoelectrochemical cell : issues and challenges |
title_short |
Scale-up of BiVO4 photoanode for water splitting in a photoelectrochemical cell : issues and challenges |
title_full |
Scale-up of BiVO4 photoanode for water splitting in a photoelectrochemical cell : issues and challenges |
title_fullStr |
Scale-up of BiVO4 photoanode for water splitting in a photoelectrochemical cell : issues and challenges |
title_full_unstemmed |
Scale-up of BiVO4 photoanode for water splitting in a photoelectrochemical cell : issues and challenges |
title_sort |
scale-up of bivo4 photoanode for water splitting in a photoelectrochemical cell : issues and challenges |
publishDate |
2019 |
url |
https://hdl.handle.net/10356/85907 http://hdl.handle.net/10220/48246 |
_version_ |
1772828446644240384 |