TiO 2 -based photocatalysts from type-II to S-scheme heterojunction and their applications
Photocatalysis is a promising sustainable technology to remove organic pollution and convert solar energy into chemical energy. Titanium dioxide has drawn extensive attention in this field owing to its high activity under UV light, good chemical stability, large availability, low price and low toxic...
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| Published in | Journal of colloid and interface science Vol. 675; p. 150 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
01.12.2024
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1095-7103 |
| DOI | 10.1016/j.jcis.2024.06.204 |
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| Abstract | Photocatalysis is a promising sustainable technology to remove organic pollution and convert solar energy into chemical energy. Titanium dioxide has drawn extensive attention in this field owing to its high activity under UV light, good chemical stability, large availability, low price and low toxicity. However, the poor quantum efficiency derived from fast electron/hole recombination, the limited utilization of sunlight, and a weak reducing ability still hinder its practical application. Among the modification strategies of TiO
to enhance its performance, the construction of heterojunctions with other semiconductors is a powerful and versatile way to maximise the separation of photogenerated charge carriers and steer their transport toward enhanced efficiency and selectivity. Here, the research progress and current status of TiO
modification are reviewed, focusing on heterojunctions. A rapid evolution of the understanding of the different charge transfer mechanisms is witnessed from traditional type II to the recently conceptualised S-scheme. Particular attention is paid to different synthetic approaches and interface engineering methods designed to improve and control the interfacial charge transfer, and several cases of TiO
heterostructures with metal oxides, metal sulfides and carbon nitride are discussed. The application hotspots of TiO
-based photocatalysts are summarized, including hydrogen generation by water splitting, solar fuel production by CO
conversion, and the degradation of organic water pollutants. Hints about less studied and emerging processes are also provided. Finally, the main issues and challenges related to the sustainability and scalability of photocatalytic technologies in view of their commercialization are highlighted, outlining future directions of development. |
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| AbstractList | Photocatalysis is a promising sustainable technology to remove organic pollution and convert solar energy into chemical energy. Titanium dioxide has drawn extensive attention in this field owing to its high activity under UV light, good chemical stability, large availability, low price and low toxicity. However, the poor quantum efficiency derived from fast electron/hole recombination, the limited utilization of sunlight, and a weak reducing ability still hinder its practical application. Among the modification strategies of TiO
to enhance its performance, the construction of heterojunctions with other semiconductors is a powerful and versatile way to maximise the separation of photogenerated charge carriers and steer their transport toward enhanced efficiency and selectivity. Here, the research progress and current status of TiO
modification are reviewed, focusing on heterojunctions. A rapid evolution of the understanding of the different charge transfer mechanisms is witnessed from traditional type II to the recently conceptualised S-scheme. Particular attention is paid to different synthetic approaches and interface engineering methods designed to improve and control the interfacial charge transfer, and several cases of TiO
heterostructures with metal oxides, metal sulfides and carbon nitride are discussed. The application hotspots of TiO
-based photocatalysts are summarized, including hydrogen generation by water splitting, solar fuel production by CO
conversion, and the degradation of organic water pollutants. Hints about less studied and emerging processes are also provided. Finally, the main issues and challenges related to the sustainability and scalability of photocatalytic technologies in view of their commercialization are highlighted, outlining future directions of development. |
| Author | Qi, Kezhen Imparato, Claudio Khataee, Alireza Almjasheva, Oksana Zheng, Wenjun |
| Author_xml | – sequence: 1 givenname: Kezhen surname: Qi fullname: Qi, Kezhen organization: College of Pharmacy, Dali University, Dali 671000, Yunnan, China – sequence: 2 givenname: Claudio surname: Imparato fullname: Imparato, Claudio email: claudio.imparato@unina.it organization: Department of Chemical, Materials and Production Engineering, University of Naples Federico II, 80125 Naples, Italy. Electronic address: claudio.imparato@unina.it – sequence: 3 givenname: Oksana surname: Almjasheva fullname: Almjasheva, Oksana organization: Department of Physical Chemistry, Saint Petersburg Electrotechnical University "LETI", Saint Petersburg, 197022, Russia – sequence: 4 givenname: Alireza surname: Khataee fullname: Khataee, Alireza email: khataee@itu.edu.tr organization: Department of Chemical Engineering, Istanbul Technical University, 34469 Istanbul, Turkey; Peoples' Friendship University of Russia (RUDN University), 6 Miklukho-Maklaya Street, Moscow, 117198, Russian Federation. Electronic address: khataee@itu.edu.tr – sequence: 5 givenname: Wenjun surname: Zheng fullname: Zheng, Wenjun email: zhwj@nankai.edu.cn organization: College of Chemistry, Nankai University, Tianjin 300071, Tianjin, China. Electronic address: zhwj@nankai.edu.cn |
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| Keywords | CO reduction Pollutants degradation Semiconductor heterojunction Photocatalysis Interface engineering Titanium dioxide Hydrogen production |
| Language | English |
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| Title | TiO 2 -based photocatalysts from type-II to S-scheme heterojunction and their applications |
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