A neutron diffraction study of oxygen and nitrogen ordering in a kinetically stable orthorhombic iron doped titanium oxynitride
A neutron diffraction study of oxygen and nitrogen ordering in a kinetically stable orthorhombic iron doped titanium oxynitride
The synthesis of a polycrystalline powder sample of iron doped orthorhombic titanium oxynitride, Ti2.92Fe0.01O4.02N0.98, on the scale of 0.7 g has been achieved. This was conducted by the unusual route of delamination from a steel substrate of a thin film deposited using atmospheric pressure chemical vapour deposition. The structure of the titanium oxynitride is presented, determined from a combined analysis of X-ray and neutron powder diffraction data. The use of neutron diffraction allows the position of the oxygen and nitrogen ions in the material to be reported unambiguously for the first time. In this study Ti2.92Fe0.01O4.02N0.98 is found to crystallise in the Cmcm. space group, iso-structural pseudobrookite, with lattice parameters a = 3.81080(6) angstrom, b = 9.6253(2) angstrom, and c = 9.8859(2) angstrom, and contains partial oxygen-nitrogen ordering. Of the three anion sites in this structure one is exclusively occupied by oxygen, while the remaining two sites are occupied by oxygen and nitrogen in a disordered manner. Testing indicates that this iron doped titanium oxynitride is a metastable phase that decomposes above 700 degrees C into TiN and TiO2, the thermodynamic products.
neutron diffraction, titanium, oxynitride, chemical vapour deposition
169-173
Wu, On Ying
1cf50a03-1b2c-4fe5-8649-8fa03504e2ea
Parkin, Ivan P.
7f95b9c4-1f9d-441c-8d43-ac8ea2554b85
Hyett, Geoffrey
4f292fc9-2198-4b18-99b9-3c74e7dfed8d
June 2012
Wu, On Ying
1cf50a03-1b2c-4fe5-8649-8fa03504e2ea
Parkin, Ivan P.
7f95b9c4-1f9d-441c-8d43-ac8ea2554b85
Hyett, Geoffrey
4f292fc9-2198-4b18-99b9-3c74e7dfed8d
Wu, On Ying, Parkin, Ivan P. and Hyett, Geoffrey
(2012)
A neutron diffraction study of oxygen and nitrogen ordering in a kinetically stable orthorhombic iron doped titanium oxynitride.
Journal of Solid State Chemistry, 190, .
(doi:10.1016/j.jssc.2012.02.034).
Abstract
The synthesis of a polycrystalline powder sample of iron doped orthorhombic titanium oxynitride, Ti2.92Fe0.01O4.02N0.98, on the scale of 0.7 g has been achieved. This was conducted by the unusual route of delamination from a steel substrate of a thin film deposited using atmospheric pressure chemical vapour deposition. The structure of the titanium oxynitride is presented, determined from a combined analysis of X-ray and neutron powder diffraction data. The use of neutron diffraction allows the position of the oxygen and nitrogen ions in the material to be reported unambiguously for the first time. In this study Ti2.92Fe0.01O4.02N0.98 is found to crystallise in the Cmcm. space group, iso-structural pseudobrookite, with lattice parameters a = 3.81080(6) angstrom, b = 9.6253(2) angstrom, and c = 9.8859(2) angstrom, and contains partial oxygen-nitrogen ordering. Of the three anion sites in this structure one is exclusively occupied by oxygen, while the remaining two sites are occupied by oxygen and nitrogen in a disordered manner. Testing indicates that this iron doped titanium oxynitride is a metastable phase that decomposes above 700 degrees C into TiN and TiO2, the thermodynamic products.
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Published date: June 2012
Keywords:
neutron diffraction, titanium, oxynitride, chemical vapour deposition
Organisations:
Organic Chemistry: Synthesis, Catalysis and Flow
Identifiers
Local EPrints ID: 347032
URI: http://eprints.soton.ac.uk/id/eprint/347032
ISSN: 0022-4596
PURE UUID: b4476c8e-bfef-49c2-85c7-dcc2032c6c08
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Date deposited: 21 Jan 2013 09:58
Last modified: 15 Mar 2024 03:45
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Author:
On Ying Wu
Author:
Ivan P. Parkin
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