Enhanced environmental purification with novel Pd/ZnO nanorod–decorated building materials through piezo-photocatalytic synergistic effect
Integrating photocatalytic technology with building materials is an imperative new trend in the green building field. Here, a novel Pd/ZnO nanorod array-decorated ceramic tile has been designed for the first time, aiming to purify the surrounding environment. Because of the piezoelectric characteris...
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sg-ntu-dr.10356-1758382024-05-08T01:15:57Z Enhanced environmental purification with novel Pd/ZnO nanorod–decorated building materials through piezo-photocatalytic synergistic effect Tian, Jiayi Wang, Dong Zheng, Wei Zhou, Hongmiao Xiong, Yan Zou, Han Ma, Shu Han, Changcun Huang, Yizhong School of Materials Science and Engineering Engineering Building materials Heterostructure Integrating photocatalytic technology with building materials is an imperative new trend in the green building field. Here, a novel Pd/ZnO nanorod array-decorated ceramic tile has been designed for the first time, aiming to purify the surrounding environment. Because of the piezoelectric characteristics of ZnO nanorods, the environmental degradation efficiency of this tile-based structure under light irradiation could be improved through injecting mechanical vibration stress. The unique piezo-photocatalytic synergistic effect, due to the piezoelectric field created by bent ZnO nanorods and the Schottky junction formed by the noble metal Pd/ZnO heterostructures, could effectively separate the photoinduced carriers and reduce the rate of recombination, boosting the degradation efficiency. The tile-based Pd/ZnO reaches the greatest catalytic efficiency of 75% for dye degradation in 30 min when ultrasonic and solar irradiation are applied simultaneously. Present results offer a fresh idea for creating novel piezo-photocatalytic materials applied in eco-friendly green buildings. This work was financially supported by the Natural Science Foundation of Hubei Province (Grant/Project No.2018CFB282)and the National Natural Science Foundation of China (Grant/Project No. 52103339). 2024-05-08T01:15:57Z 2024-05-08T01:15:57Z 2024 Journal Article Tian, J., Wang, D., Zheng, W., Zhou, H., Xiong, Y., Zou, H., Ma, S., Han, C. & Huang, Y. (2024). Enhanced environmental purification with novel Pd/ZnO nanorod–decorated building materials through piezo-photocatalytic synergistic effect. Journal of the American Ceramic Society, 107(5), 3550-3561. https://dx.doi.org/10.1111/jace.19664 0002-7820 https://hdl.handle.net/10356/175838 10.1111/jace.19664 2-s2.0-85181742803 5 107 3550 3561 en Journal of the American Ceramic Society © 2024 The American Ceramic Society. All rights reserved. |
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Engineering Building materials Heterostructure Tian, Jiayi Wang, Dong Zheng, Wei Zhou, Hongmiao Xiong, Yan Zou, Han Ma, Shu Han, Changcun Huang, Yizhong Enhanced environmental purification with novel Pd/ZnO nanorod–decorated building materials through piezo-photocatalytic synergistic effect |
| description |
Integrating photocatalytic technology with building materials is an imperative new trend in the green building field. Here, a novel Pd/ZnO nanorod array-decorated ceramic tile has been designed for the first time, aiming to purify the surrounding environment. Because of the piezoelectric characteristics of ZnO nanorods, the environmental degradation efficiency of this tile-based structure under light irradiation could be improved through injecting mechanical vibration stress. The unique piezo-photocatalytic synergistic effect, due to the piezoelectric field created by bent ZnO nanorods and the Schottky junction formed by the noble metal Pd/ZnO heterostructures, could effectively separate the photoinduced carriers and reduce the rate of recombination, boosting the degradation efficiency. The tile-based Pd/ZnO reaches the greatest catalytic efficiency of 75% for dye degradation in 30 min when ultrasonic and solar irradiation are applied simultaneously. Present results offer a fresh idea for creating novel piezo-photocatalytic materials applied in eco-friendly green buildings. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Tian, Jiayi Wang, Dong Zheng, Wei Zhou, Hongmiao Xiong, Yan Zou, Han Ma, Shu Han, Changcun Huang, Yizhong |
| format |
Article |
| author |
Tian, Jiayi Wang, Dong Zheng, Wei Zhou, Hongmiao Xiong, Yan Zou, Han Ma, Shu Han, Changcun Huang, Yizhong |
| author_sort |
Tian, Jiayi |
| title |
Enhanced environmental purification with novel Pd/ZnO nanorod–decorated building materials through piezo-photocatalytic synergistic effect |
| title_short |
Enhanced environmental purification with novel Pd/ZnO nanorod–decorated building materials through piezo-photocatalytic synergistic effect |
| title_full |
Enhanced environmental purification with novel Pd/ZnO nanorod–decorated building materials through piezo-photocatalytic synergistic effect |
| title_fullStr |
Enhanced environmental purification with novel Pd/ZnO nanorod–decorated building materials through piezo-photocatalytic synergistic effect |
| title_full_unstemmed |
Enhanced environmental purification with novel Pd/ZnO nanorod–decorated building materials through piezo-photocatalytic synergistic effect |
| title_sort |
enhanced environmental purification with novel pd/zno nanorod–decorated building materials through piezo-photocatalytic synergistic effect |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/175838 |
| _version_ |
1800916439475945472 |