Synthesis and characterization of mixed phase anatase TiO2 and sodium-doped TiO2(B) thin films by low pressure chemical vapour deposition (LPCVD)
Synthesis and characterization of mixed phase anatase TiO2 and sodium-doped TiO2(B) thin films by low pressure chemical vapour deposition (LPCVD)
TiO2 thin films were synthesized using Low Pressure Chemical Vapour Deposition (LPCVD) onto glass substrates. Titanium isopropoxide (TTIP) and N-2 gas were used as the precursor and carrier gas respectively. The effects of reaction temperature, carrier gas flow rate and deposited area were studied. SEM, TEM, powder XRD and UV-Vis and Raman spectroscopy were employed to characterize the phase and morphology of the synthesized materials. The results show that a dual phase (sodium-doped TiO2(B) and anatase) nanocrystalline thin film was successfully prepared by LPCVD with needle-and polygonal plate-shape crystallites respectively. At the interface with the substrate, the thin film deposit exhibited a preferred orientation of TiO2(B) needles in the [001] direction with an average crystallite size of 50-80 nm in length and 5-10 nm in width, whilst the crystallite size of anatase polygonal-plates was around 200 nm. The optimal LPCVD condition for preparing this mixed phase of TiO2 was 550 degrees C (actual temperature) with a 1 mL s(-1) N-2 flow rate. A possible mechanism for the mixed-phase formation by LPCVD on the glass substrates is described as well as the implications for the production of self-cleaning structures.
48507-48515
Chimupala, Yothin
312cf4b2-dbbe-4173-b421-adb8899c02bb
Hyett, Geoffrey
4f292fc9-2198-4b18-99b9-3c74e7dfed8d
Simpson, Robert
2b7dcf98-8712-46bf-ac32-8782a9955aef
Mitchell, Robert
3b8341fb-2676-4ce0-af81-3d253405be3f
Douthwaite, Richard
47e52cb6-6d9d-4dd6-ab49-2870a550e673
Milne, Steven J.
eb000aea-3703-414a-9a2c-fc1189f3f24a
Brydson, Richard D.
04829ba4-927e-4143-b88b-59927729261d
Chimupala, Yothin
312cf4b2-dbbe-4173-b421-adb8899c02bb
Hyett, Geoffrey
4f292fc9-2198-4b18-99b9-3c74e7dfed8d
Simpson, Robert
2b7dcf98-8712-46bf-ac32-8782a9955aef
Mitchell, Robert
3b8341fb-2676-4ce0-af81-3d253405be3f
Douthwaite, Richard
47e52cb6-6d9d-4dd6-ab49-2870a550e673
Milne, Steven J.
eb000aea-3703-414a-9a2c-fc1189f3f24a
Brydson, Richard D.
04829ba4-927e-4143-b88b-59927729261d
Chimupala, Yothin, Hyett, Geoffrey, Simpson, Robert, Mitchell, Robert, Douthwaite, Richard, Milne, Steven J. and Brydson, Richard D.
(2014)
Synthesis and characterization of mixed phase anatase TiO2 and sodium-doped TiO2(B) thin films by low pressure chemical vapour deposition (LPCVD).
RSC Advances, 4 (89), .
(doi:10.1039/c4ra07570f).
Abstract
TiO2 thin films were synthesized using Low Pressure Chemical Vapour Deposition (LPCVD) onto glass substrates. Titanium isopropoxide (TTIP) and N-2 gas were used as the precursor and carrier gas respectively. The effects of reaction temperature, carrier gas flow rate and deposited area were studied. SEM, TEM, powder XRD and UV-Vis and Raman spectroscopy were employed to characterize the phase and morphology of the synthesized materials. The results show that a dual phase (sodium-doped TiO2(B) and anatase) nanocrystalline thin film was successfully prepared by LPCVD with needle-and polygonal plate-shape crystallites respectively. At the interface with the substrate, the thin film deposit exhibited a preferred orientation of TiO2(B) needles in the [001] direction with an average crystallite size of 50-80 nm in length and 5-10 nm in width, whilst the crystallite size of anatase polygonal-plates was around 200 nm. The optimal LPCVD condition for preparing this mixed phase of TiO2 was 550 degrees C (actual temperature) with a 1 mL s(-1) N-2 flow rate. A possible mechanism for the mixed-phase formation by LPCVD on the glass substrates is described as well as the implications for the production of self-cleaning structures.
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Accepted/In Press date: 22 September 2014
e-pub ahead of print date: 22 September 2014
Organisations:
Organic Chemistry: SCF
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Local EPrints ID: 395509
URI: http://eprints.soton.ac.uk/id/eprint/395509
ISSN: 2046-2069
PURE UUID: 31284832-45f1-4995-8ff6-77481a9de833
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Date deposited: 31 May 2016 14:21
Last modified: 15 Mar 2024 03:45
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Author:
Yothin Chimupala
Author:
Robert Simpson
Author:
Robert Mitchell
Author:
Richard Douthwaite
Author:
Steven J. Milne
Author:
Richard D. Brydson
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