Ti1-xSnxO2 nanofilms : layer-by-layer deposition with extended Sn solubility and characterization
High quality rutile Ti1-xSnxO2 nanofilms were successfully grown in a layer-by-layer mode at a moderately low temperature of 400 °C using pulsed laser deposition (PLD). High solid solubility of up to x = 0.216 has been achieved in the Ti1-xSnxO2 films despite theoretical prediction by Density functi...
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sg-ntu-dr.10356-802732023-02-28T19:28:04Z Ti1-xSnxO2 nanofilms : layer-by-layer deposition with extended Sn solubility and characterization Yong, Zhihua Linghu, Jiajun Xi, Shibo Tan, Hui Ru Shen, Lei Yang, Ping Hui, Hui Kim Cao, Jian Qing Leek, Meng Lee Yin, Xinmao Feng, Yuan Ping Pan, Jisheng School of Physical and Mathematical Sciences Titanium Dioxide Science::Physics Thin Film High quality rutile Ti1-xSnxO2 nanofilms were successfully grown in a layer-by-layer mode at a moderately low temperature of 400 °C using pulsed laser deposition (PLD). High solid solubility of up to x = 0.216 has been achieved in the Ti1-xSnxO2 films despite theoretical prediction by Density functional theory (DFT) of large formation energy (∼5.64 eV) required for the substitutional alloy to exist at such high Sn concentration. The resultant films have smooth interfaces and step-terraced surfaces with well controlled stoichiometry and are optically transparent. Sn L3-edge Extended X-ray absorption fine structure (EXAFS) reveals the substitution of Sn4+ in the Ti4+ lattice sites of TiO2. The lattice spacing along [110] increases linearly with increment in x due to substitution of Sn4+ ions in the Ti lattice sites of the Ti1-xSnxO2 films. X-ray photoelectron spectroscopy (XPS) and Rutherford backscattering (RBS) show that Sn is uniformly distributed on the surface and in the bulk of the films. These results are crucial when considering Ti1-xSnxO2 with suitable composition for making TiO2 based quantum structures in advanced optoelectronic devices and solar energy materials, where high-quality crystalline thin film-substrates are important. Accepted version 2019-11-07T06:42:11Z 2019-12-06T13:46:16Z 2019-11-07T06:42:11Z 2019-12-06T13:46:16Z 2017 Journal Article Yong, Z., Linghu, J., Xi, S., Tan, H. R., Shen, L., Yang, P., . . . Pan, J. (2018). Ti1-xSnxO2 nanofilms : layer-by-layer deposition with extended Sn solubility and characterization. Applied Surface Science, 428, 710-717. doi:10.1016/j.apsusc.2017.09.135 0169-4332 https://hdl.handle.net/10356/80273 http://hdl.handle.net/10220/50372 10.1016/j.apsusc.2017.09.135 en Applied Surface Science © 2017 Elsevier B.V. All rights reserved This paper was published in Applied Surface Science and is made available with permission of Elsevier B.V. 22 p. application/pdf |
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Titanium Dioxide Science::Physics Thin Film |
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Titanium Dioxide Science::Physics Thin Film Yong, Zhihua Linghu, Jiajun Xi, Shibo Tan, Hui Ru Shen, Lei Yang, Ping Hui, Hui Kim Cao, Jian Qing Leek, Meng Lee Yin, Xinmao Feng, Yuan Ping Pan, Jisheng Ti1-xSnxO2 nanofilms : layer-by-layer deposition with extended Sn solubility and characterization |
| description |
High quality rutile Ti1-xSnxO2 nanofilms were successfully grown in a layer-by-layer mode at a moderately low temperature of 400 °C using pulsed laser deposition (PLD). High solid solubility of up to x = 0.216 has been achieved in the Ti1-xSnxO2 films despite theoretical prediction by Density functional theory (DFT) of large formation energy (∼5.64 eV) required for the substitutional alloy to exist at such high Sn concentration. The resultant films have smooth interfaces and step-terraced surfaces with well controlled stoichiometry and are optically transparent. Sn L3-edge Extended X-ray absorption fine structure (EXAFS) reveals the substitution of Sn4+ in the Ti4+ lattice sites of TiO2. The lattice spacing along [110] increases linearly with increment in x due to substitution of Sn4+ ions in the Ti lattice sites of the Ti1-xSnxO2 films. X-ray photoelectron spectroscopy (XPS) and Rutherford backscattering (RBS) show that Sn is uniformly distributed on the surface and in the bulk of the films. These results are crucial when considering Ti1-xSnxO2 with suitable composition for making TiO2 based quantum structures in advanced optoelectronic devices and solar energy materials, where high-quality crystalline thin film-substrates are important. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Yong, Zhihua Linghu, Jiajun Xi, Shibo Tan, Hui Ru Shen, Lei Yang, Ping Hui, Hui Kim Cao, Jian Qing Leek, Meng Lee Yin, Xinmao Feng, Yuan Ping Pan, Jisheng |
| format |
Article |
| author |
Yong, Zhihua Linghu, Jiajun Xi, Shibo Tan, Hui Ru Shen, Lei Yang, Ping Hui, Hui Kim Cao, Jian Qing Leek, Meng Lee Yin, Xinmao Feng, Yuan Ping Pan, Jisheng |
| author_sort |
Yong, Zhihua |
| title |
Ti1-xSnxO2 nanofilms : layer-by-layer deposition with extended Sn solubility and characterization |
| title_short |
Ti1-xSnxO2 nanofilms : layer-by-layer deposition with extended Sn solubility and characterization |
| title_full |
Ti1-xSnxO2 nanofilms : layer-by-layer deposition with extended Sn solubility and characterization |
| title_fullStr |
Ti1-xSnxO2 nanofilms : layer-by-layer deposition with extended Sn solubility and characterization |
| title_full_unstemmed |
Ti1-xSnxO2 nanofilms : layer-by-layer deposition with extended Sn solubility and characterization |
| title_sort |
ti1-xsnxo2 nanofilms : layer-by-layer deposition with extended sn solubility and characterization |
| publishDate |
2019 |
| url |
https://hdl.handle.net/10356/80273 http://hdl.handle.net/10220/50372 |
| _version_ |
1759856024299241472 |