TiO[sub.2] Gas Sensors Combining Experimental and DFT Calculations: A Review

Gas sensors play an irreplaceable role in industry and life. Different types of gas sensors, including metal-oxide sensors, are developed for different scenarios. Titanium dioxide is widely used in dyes, photocatalysis, and other fields by virtue of its nontoxic and nonhazardous properties, and exce...

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Veröffentlicht in:	Nanomaterials (Basel, Switzerland) Switzerland), 2022-10, Vol.12 (20)
Hauptverfasser:	Yan, Zirui, Zhang, Yaofang, Kang, Weimin, Deng, Nanping, Pan, Yingwen, Sun, Wei, Ni, Jian, Kang, Xiaoying
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Sprache:	eng
Schlagworte:	Sensors
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creator	Yan, Zirui Zhang, Yaofang Kang, Weimin Deng, Nanping Pan, Yingwen Sun, Wei Ni, Jian Kang, Xiaoying
description	Gas sensors play an irreplaceable role in industry and life. Different types of gas sensors, including metal-oxide sensors, are developed for different scenarios. Titanium dioxide is widely used in dyes, photocatalysis, and other fields by virtue of its nontoxic and nonhazardous properties, and excellent performance. Additionally, researchers are continuously exploring applications in other fields, such as gas sensors and batteries. The preparation methods include deposition, magnetron sputtering, and electrostatic spinning. As researchers continue to study sensors with the help of modern computers, microcosm simulations have been implemented, opening up new possibilities for research. The combination of simulation and calculation will help us to better grasp the reaction mechanisms, improve the design of gas sensor materials, and better respond to different gas environments. In this paper, the experimental and computational aspects of TiO[sub.2] are reviewed, and the future research directions are described.
doi_str_mv	10.3390/nano12203611
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Different types of gas sensors, including metal-oxide sensors, are developed for different scenarios. Titanium dioxide is widely used in dyes, photocatalysis, and other fields by virtue of its nontoxic and nonhazardous properties, and excellent performance. Additionally, researchers are continuously exploring applications in other fields, such as gas sensors and batteries. The preparation methods include deposition, magnetron sputtering, and electrostatic spinning. As researchers continue to study sensors with the help of modern computers, microcosm simulations have been implemented, opening up new possibilities for research. The combination of simulation and calculation will help us to better grasp the reaction mechanisms, improve the design of gas sensor materials, and better respond to different gas environments. 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source	DOAJ Directory of Open Access Journals; PubMed Central Open Access; MDPI - Multidisciplinary Digital Publishing Institute; EZB-FREE-00999 freely available EZB journals; PubMed Central
subjects	Sensors
title	TiO[sub.2] Gas Sensors Combining Experimental and DFT Calculations: A Review
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