Improving photoelectrochemical activity of ZnO/TiO₂ core–shell nanostructure through Ag nanoparticle integration
In solar energy harvesting using solar cells and photocatalysts, the photoexcitation of electrons and holes in semiconductors is the first major step in the solar energy conversion. The lifetime of carriers, a key factor determining the energy conversion and photocatalysis efficiency, is shortened m...
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sg-ntu-dr.10356-1538342023-02-28T19:21:41Z Improving photoelectrochemical activity of ZnO/TiO₂ core–shell nanostructure through Ag nanoparticle integration Wang, Zeli Chen, Zhen Dan, Jiadong Chen, Weiqiang Zhou, Chenghang Shen, Zexiang Sum, Tze Chien Wang, Xue-Sen School of Physical and Mathematical Sciences Science::Physics Photocatalysis Carrier Lifetime In solar energy harvesting using solar cells and photocatalysts, the photoexcitation of electrons and holes in semiconductors is the first major step in the solar energy conversion. The lifetime of carriers, a key factor determining the energy conversion and photocatalysis efficiency, is shortened mainly by the recombination of photoexcited carriers. We prepared and tested a series of ZnO/TiO₂-based heterostructures in search of designs which can extend the carrier lifetime. Time-resolved pho-toluminescence tests revealed that, in ZnO/TiO₂ core–shell structure the carrier lifetime is extended by over 20 times comparing with the pure ZnO nanorods. The performance improved further when Ag nanoparticles were integrated at the ZnO/TiO₂ interface to construct a Z-scheme structure. We utilized these samples as photoanodes in a photoelectrochemical (PEC) cell and analyzed their solar water splitting performances. Our data showed that these modifications significantly enhanced the PEC per-formance. Especially, under visible light, the Z-scheme structure generated a photocurrent density 100 times higher than from the original ZnO samples. These results reveal the potential of ZnO-Ag-TiO₂ nanorod arrays as a long-carrier-lifetime structure for future solar energy harvesting applications. Ministry of Education (MOE) Published version This research was funded by the Ministry of Education, Singapore, AcRF Grant R-144-000-365-112. 2021-12-30T05:33:49Z 2021-12-30T05:33:49Z 2021 Journal Article Wang, Z., Chen, Z., Dan, J., Chen, W., Zhou, C., Shen, Z., Sum, T. C. & Wang, X. (2021). Improving photoelectrochemical activity of ZnO/TiO₂ core–shell nanostructure through Ag nanoparticle integration. Catalysts, 11(8), 911-. https://dx.doi.org/10.3390/catal11080911 2073-4344 https://hdl.handle.net/10356/153834 10.3390/catal11080911 2-s2.0-85111247526 8 11 911 en R-144-000-365-112 Catalysts © 2021 The Author(s). Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https:// creativecommons.org/licenses/by/ 4.0/). application/pdf |
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Science::Physics Photocatalysis Carrier Lifetime Wang, Zeli Chen, Zhen Dan, Jiadong Chen, Weiqiang Zhou, Chenghang Shen, Zexiang Sum, Tze Chien Wang, Xue-Sen Improving photoelectrochemical activity of ZnO/TiO₂ core–shell nanostructure through Ag nanoparticle integration |
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In solar energy harvesting using solar cells and photocatalysts, the photoexcitation of electrons and holes in semiconductors is the first major step in the solar energy conversion. The lifetime of carriers, a key factor determining the energy conversion and photocatalysis efficiency, is shortened mainly by the recombination of photoexcited carriers. We prepared and tested a series of ZnO/TiO₂-based heterostructures in search of designs which can extend the carrier lifetime. Time-resolved pho-toluminescence tests revealed that, in ZnO/TiO₂ core–shell structure the carrier lifetime is extended by over 20 times comparing with the pure ZnO nanorods. The performance improved further when Ag nanoparticles were integrated at the ZnO/TiO₂ interface to construct a Z-scheme structure. We utilized these samples as photoanodes in a photoelectrochemical (PEC) cell and analyzed their solar water splitting performances. Our data showed that these modifications significantly enhanced the PEC per-formance. Especially, under visible light, the Z-scheme structure generated a photocurrent density 100 times higher than from the original ZnO samples. These results reveal the potential of ZnO-Ag-TiO₂ nanorod arrays as a long-carrier-lifetime structure for future solar energy harvesting applications. |
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School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Wang, Zeli Chen, Zhen Dan, Jiadong Chen, Weiqiang Zhou, Chenghang Shen, Zexiang Sum, Tze Chien Wang, Xue-Sen |
| format |
Article |
| author |
Wang, Zeli Chen, Zhen Dan, Jiadong Chen, Weiqiang Zhou, Chenghang Shen, Zexiang Sum, Tze Chien Wang, Xue-Sen |
| author_sort |
Wang, Zeli |
| title |
Improving photoelectrochemical activity of ZnO/TiO₂ core–shell nanostructure through Ag nanoparticle integration |
| title_short |
Improving photoelectrochemical activity of ZnO/TiO₂ core–shell nanostructure through Ag nanoparticle integration |
| title_full |
Improving photoelectrochemical activity of ZnO/TiO₂ core–shell nanostructure through Ag nanoparticle integration |
| title_fullStr |
Improving photoelectrochemical activity of ZnO/TiO₂ core–shell nanostructure through Ag nanoparticle integration |
| title_full_unstemmed |
Improving photoelectrochemical activity of ZnO/TiO₂ core–shell nanostructure through Ag nanoparticle integration |
| title_sort |
improving photoelectrochemical activity of zno/tio₂ core–shell nanostructure through ag nanoparticle integration |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/153834 |
| _version_ |
1759853101100040192 |