Spatial engineering of a Co(OH)ₓ encapsulated p-Cu₂S/n-BiVO₄ photoanode : simultaneously promoting charge separation and surface reaction kinetics in solar water splitting
The photoelectrochemical (PEC) water splitting efficiency of a photoanode is restricted by charge recombination and sluggish reaction kinetics. Here, we demonstrated the spatial engineering of an ultrathin Co(OH)ₓ encapsulated p-Cu₂S/n-BiVO₄ photoanode for simultaneously enhancing charge separation...
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sg-ntu-dr.10356-1516212021-07-22T11:47:23Z Spatial engineering of a Co(OH)ₓ encapsulated p-Cu₂S/n-BiVO₄ photoanode : simultaneously promoting charge separation and surface reaction kinetics in solar water splitting He, Bing Wang, Yang Liu, Xueqin Li, Yinchang Hu, Xiaoqin Huang, Jing Yu, Yongsheng Shu, Zhu Li, Zhen Zhao, Yanli School of Physical and Mathematical Sciences Science::Chemistry Ionic-layer Adsorption BiVO₄ Photoanodes The photoelectrochemical (PEC) water splitting efficiency of a photoanode is restricted by charge recombination and sluggish reaction kinetics. Here, we demonstrated the spatial engineering of an ultrathin Co(OH)ₓ encapsulated p-Cu₂S/n-BiVO₄ photoanode for simultaneously enhancing charge separation and surface reaction kinetics in solar water splitting. Specifically, the separation efficiency of photoexcited charge carriers in the bulk was effectively improved due to the formation of a p-Cu₂S/n-BiVO₄ heterojunction, and the light-driven water oxidation reaction on the surface was further promoted because of the introduction of Co(OH)ₓ as an oxygen evolution catalyst (OEC) layer. As a result, the p-Cu₂S/n-BiVO₄ heterostructure yielded a largely enhanced charge separation efficiency of up to 79%, and a significant surface charge separation of 70% was achieved, attributed to the deposition of the Co(OH)ₓ cocatalyst. Furthermore, this synergistic effect in the photoanode gave rise to a remarkably enhanced photocurrent density of 3.51 mA cm⁻² at 1.23 V vs. the reversible hydrogen electrode. This spatial engineering provides an efficient strategy for the simultaneous improvement of internal and surface charge separation via dual modification, i.e., p-n heterojunction formation and OEC coating. Ministry of Education (MOE) The work was supported by the National Natural Science Foundation of China (41502030), the Natural Science Foundation of Hubei Province of China (2017CFB190), the Fundamental Research Funds for the Central Universities, China University of Geosciences (Wuhan) (CUG170638), and the Open Foundation of Engineering Research Center of Nano-Geomaterials of Ministry of Education (NGM2017KF002 and NGM2018KF017). This research was also supported by the Singapore Academic Research Fund (RG5/16, RG11/17 and RG114/17). 2021-07-22T11:47:23Z 2021-07-22T11:47:23Z 2019 Journal Article He, B., Wang, Y., Liu, X., Li, Y., Hu, X., Huang, J., Yu, Y., Shu, Z., Li, Z. & Zhao, Y. (2019). Spatial engineering of a Co(OH)ₓ encapsulated p-Cu₂S/n-BiVO₄ photoanode : simultaneously promoting charge separation and surface reaction kinetics in solar water splitting. Journal of Materials Chemistry A, 7(12), 6747-6752. https://dx.doi.org/10.1039/c9ta00171a 2050-7488 https://hdl.handle.net/10356/151621 10.1039/c9ta00171a 2-s2.0-85063149781 12 7 6747 6752 en RG5/16 RG11/17 RG114/17 Journal of Materials Chemistry A © 2019 The Royal Society of Chemistry. All rights reserved. |
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Science::Chemistry Ionic-layer Adsorption BiVO₄ Photoanodes He, Bing Wang, Yang Liu, Xueqin Li, Yinchang Hu, Xiaoqin Huang, Jing Yu, Yongsheng Shu, Zhu Li, Zhen Zhao, Yanli Spatial engineering of a Co(OH)ₓ encapsulated p-Cu₂S/n-BiVO₄ photoanode : simultaneously promoting charge separation and surface reaction kinetics in solar water splitting |
| description |
The photoelectrochemical (PEC) water splitting efficiency of a photoanode is restricted by charge recombination and sluggish reaction kinetics. Here, we demonstrated the spatial engineering of an ultrathin Co(OH)ₓ encapsulated p-Cu₂S/n-BiVO₄ photoanode for simultaneously enhancing charge separation and surface reaction kinetics in solar water splitting. Specifically, the separation efficiency of photoexcited charge carriers in the bulk was effectively improved due to the formation of a p-Cu₂S/n-BiVO₄ heterojunction, and the light-driven water oxidation reaction on the surface was further promoted because of the introduction of Co(OH)ₓ as an oxygen evolution catalyst (OEC) layer. As a result, the p-Cu₂S/n-BiVO₄ heterostructure yielded a largely enhanced charge separation efficiency of up to 79%, and a significant surface charge separation of 70% was achieved, attributed to the deposition of the Co(OH)ₓ cocatalyst. Furthermore, this synergistic effect in the photoanode gave rise to a remarkably enhanced photocurrent density of 3.51 mA cm⁻² at 1.23 V vs. the reversible hydrogen electrode. This spatial engineering provides an efficient strategy for the simultaneous improvement of internal and surface charge separation via dual modification, i.e., p-n heterojunction formation and OEC coating. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences He, Bing Wang, Yang Liu, Xueqin Li, Yinchang Hu, Xiaoqin Huang, Jing Yu, Yongsheng Shu, Zhu Li, Zhen Zhao, Yanli |
| format |
Article |
| author |
He, Bing Wang, Yang Liu, Xueqin Li, Yinchang Hu, Xiaoqin Huang, Jing Yu, Yongsheng Shu, Zhu Li, Zhen Zhao, Yanli |
| author_sort |
He, Bing |
| title |
Spatial engineering of a Co(OH)ₓ encapsulated p-Cu₂S/n-BiVO₄ photoanode : simultaneously promoting charge separation and surface reaction kinetics in solar water splitting |
| title_short |
Spatial engineering of a Co(OH)ₓ encapsulated p-Cu₂S/n-BiVO₄ photoanode : simultaneously promoting charge separation and surface reaction kinetics in solar water splitting |
| title_full |
Spatial engineering of a Co(OH)ₓ encapsulated p-Cu₂S/n-BiVO₄ photoanode : simultaneously promoting charge separation and surface reaction kinetics in solar water splitting |
| title_fullStr |
Spatial engineering of a Co(OH)ₓ encapsulated p-Cu₂S/n-BiVO₄ photoanode : simultaneously promoting charge separation and surface reaction kinetics in solar water splitting |
| title_full_unstemmed |
Spatial engineering of a Co(OH)ₓ encapsulated p-Cu₂S/n-BiVO₄ photoanode : simultaneously promoting charge separation and surface reaction kinetics in solar water splitting |
| title_sort |
spatial engineering of a co(oh)ₓ encapsulated p-cu₂s/n-bivo₄ photoanode : simultaneously promoting charge separation and surface reaction kinetics in solar water splitting |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/151621 |
| _version_ |
1707050390928752640 |