Optical properties of (La,Sr)TiO2N series depending on non-stoichiometries and particle sizes varying in accordance with heat treatment conditions

The stoichiometric LaTiO2N and cation nonstoichiometric La1−xTi1+xO2N and La1−xSrxTiO2N compounds have been prepared in order to clarify the influence on body colors from the viewpoint of particle sizes by controlling the nitriding temperatures and the cation nonstoichiometries. In case of preparing...

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Bibliographic Details
Published in:IOP conference series. Materials Science and Engineering 2009-02, Vol.1 (1), p.012018-6
Main Authors: Masuda, Yukihiro, Mashima, Ryota, Yamada, Mayu, Ando, Hidehito, Kawasaki, Tomooki, Murai, Kei-ichiro, Moriga, Toshihiro
Format: Article
Language:English
Subjects:
Cations
Crystallization
Deterioration
Grain growth
Heat treatment
Lanthanum
Nitriding
Optical properties
Reflectance
Stoichiometry
Strontium
Strontium titanates
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Summary:The stoichiometric LaTiO2N and cation nonstoichiometric La1−xTi1+xO2N and La1−xSrxTiO2N compounds have been prepared in order to clarify the influence on body colors from the viewpoint of particle sizes by controlling the nitriding temperatures and the cation nonstoichiometries. In case of preparing the stoichiometric LaTiO2N at nitriding temperatures from 750 to 950°C, the reflectivity in the longer wavelength region after the absorption edge was lowered and the edge was red-shifted in proportion to the degree of nitridation. The spectra nitrided at above 1050°C showed the deterioration in reflectivity compared with the spectrum at 950°C, which would result from grain growth of the well-crystallized oxynitride LaTiO2N. The increase in Ti/La ratios in La1−xTi1+xO2N brought the grain/particle growth resulted in deterioration of reflectivity. Strontium substitution for lanthanum in La1−xSrxTiO2N brought the fining in the primary particles and the surface segregation of strontium and oxygen rich species like SrTiO3 from the oxynitride particles, both of which resulted in enhancement of reflectivity.
ISSN:1757-899X
1757-8981
1757-899X
DOI:10.1088/1757-8981/1/1/012018