Phase and structural characterization of Sr{sub 2}Nb{sub 2}O{sub 7} and SrNbO{sub 3} thin films grown via pulsed laser ablation in O{sub 2} or N{sub 2} atmospheres

Phase and structural characterization of Sr{sub 2}Nb{sub 2}O{sub 7} and SrNbO{sub 3} thin films grown via pulsed laser ablation in O{sub 2} or N{sub 2} atmospheres

The influence of substrate temperature, process gas, deposition pressure, and substrate type on the phase selection, orientation/epitaxy, and growth morphology of thin films in the SrNbO{sub y} (y{approx}3.0 or 3.5) family was investigated. Pulsed laser deposited films (from a Sr{sub 2}Nb{sub 2}O{su...

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Veröffentlicht in:Journal of solid state chemistry 2008-04, Vol.181 (4)
Hauptverfasser: Balasubramaniam, K.R., Cao, Y., Patel, N., Havelia, S., Cox, P.J., Devlin, E.C., Yu, E.P., Close, B.J., Woodward, P.M., Salvador, P.A.
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ABLATION
ATMOSPHERES
ATOMIC FORCE MICROSCOPY
CRYSTAL DEFECTS
DEPOSITION
EPITAXY
INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY
MICROSTRUCTURE
MORPHOLOGY
NIOBATES
NITROGEN
OXYGEN
PEROVSKITE
POLYCRYSTALS
PRESSURE RANGE
SPECTROSCOPY
STRONTIUM COMPOUNDS
STRONTIUM TITANATES
THIN FILMS
TRANSMISSION ELECTRON MICROSCOPY
X-RAY DIFFRACTION
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container_issue 4
container_start_page
container_title Journal of solid state chemistry
container_volume 181
creator Balasubramaniam, K.R.
Cao, Y.
Patel, N.
Havelia, S.
Cox, P.J.
Devlin, E.C.
Yu, E.P.
Close, B.J.
Woodward, P.M.
Salvador, P.A.
description The influence of substrate temperature, process gas, deposition pressure, and substrate type on the phase selection, orientation/epitaxy, and growth morphology of thin films in the SrNbO{sub y} (y{approx}3.0 or 3.5) family was investigated. Pulsed laser deposited films (from a Sr{sub 2}Nb{sub 2}O{sub 7} target) obtained in both oxygen and nitrogen atmospheres upon various substrates were characterized with X-ray diffraction, energy dispersive spectroscopy, atomic force microscopy, and transmission electron microscopy. In oxygen atmospheres, films adopted the (110)-layered perovskite structure of the target. Higher temperatures, lower pressures of oxygen, and use of (110)-oriented SrTiO{sub 3} substrates lead to highly crystalline, epitaxial films of Sr{sub 2}Nb{sub 2}O{sub 7}. The use of nitrogen atmospheres resulted in cubic perovskite SrNbO{sub 3} formation: epitaxial, textured, or polycrystalline films were obtained depending on the substrate; no nitrogen incorporation could be observed on the anion sublattice. On SrTiO{sub 3}, the cubic perovskite films followed a cube-on-cube epitaxy and planar defects were observed to occur on the (110) perovskite planes. - Graphical abstract: Phase selection of SrNbO{sub y} films is influenced primarily by the process gas (in the 1-100 mTorr pressure range). In oxygen, films adopt the Sr{sub 2}Nb{sub 2}O{sub 7} (110)-layered perovskite structure (left). In nitrogen, films adopt the cubic perovskite SrNbO{sub 3} structure (right). The films' microstructure depends, however, on the substrate type and temperature.
doi_str_mv 10.1016/j.jssc.2008.01.007
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Pulsed laser deposited films (from a Sr{sub 2}Nb{sub 2}O{sub 7} target) obtained in both oxygen and nitrogen atmospheres upon various substrates were characterized with X-ray diffraction, energy dispersive spectroscopy, atomic force microscopy, and transmission electron microscopy. In oxygen atmospheres, films adopted the (110)-layered perovskite structure of the target. Higher temperatures, lower pressures of oxygen, and use of (110)-oriented SrTiO{sub 3} substrates lead to highly crystalline, epitaxial films of Sr{sub 2}Nb{sub 2}O{sub 7}. The use of nitrogen atmospheres resulted in cubic perovskite SrNbO{sub 3} formation: epitaxial, textured, or polycrystalline films were obtained depending on the substrate; no nitrogen incorporation could be observed on the anion sublattice. 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On SrTiO{sub 3}, the cubic perovskite films followed a cube-on-cube epitaxy and planar defects were observed to occur on the (110) perovskite planes. - Graphical abstract: Phase selection of SrNbO{sub y} films is influenced primarily by the process gas (in the 1-100 mTorr pressure range). In oxygen, films adopt the Sr{sub 2}Nb{sub 2}O{sub 7} (110)-layered perovskite structure (left). In nitrogen, films adopt the cubic perovskite SrNbO{sub 3} structure (right). The films' microstructure depends, however, on the substrate type and temperature.</abstract><cop>United States</cop><doi>10.1016/j.jssc.2008.01.007</doi></addata></record>
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ispartof Journal of solid state chemistry, 2008-04, Vol.181 (4)
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recordid cdi_osti_scitechconnect_21128237
source ScienceDirect Journals (5 years ago - present)
subjects ABLATION
ATMOSPHERES
ATOMIC FORCE MICROSCOPY
CRYSTAL DEFECTS
DEPOSITION
EPITAXY
INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY
MICROSTRUCTURE
MORPHOLOGY
NIOBATES
NITROGEN
OXYGEN
PEROVSKITE
POLYCRYSTALS
PRESSURE RANGE
SPECTROSCOPY
STRONTIUM COMPOUNDS
STRONTIUM TITANATES
THIN FILMS
TRANSMISSION ELECTRON MICROSCOPY
X-RAY DIFFRACTION
title Phase and structural characterization of Sr{sub 2}Nb{sub 2}O{sub 7} and SrNbO{sub 3} thin films grown via pulsed laser ablation in O{sub 2} or N{sub 2} atmospheres
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