Structural and optical characterization of BaSnO sub(3) nanopowder synthesized through a novel combustion technique

Nanocrystalline Barium stannate (BaSnO sub(3)) was synthesized through auto-ignited combustion technique. The X-ray diffraction studies of BaSnO sub(3) nanoparticles reveals that the nanopowder is single phase, crystalline, and has a cubic perovskite structure with a lattice constant a = 4.115 Aa. T...

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Veröffentlicht in:	Journal of alloys and compounds 2011-02, Vol.509 (5), p.1830-1835
Hauptverfasser:	Deepa, A S, Vidya, S, Manu, P C, Solomon, Sam, John, Annamma, Thomas, J K
Format:	Artikel
Sprache:	eng
Schlagworte:	Barium stannate Combustion Differential thermal analysis Lattice parameters Nanocomposites Nanomaterials Nanostructure Semiconductors
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creator	Deepa, A S Vidya, S Manu, P C Solomon, Sam John, Annamma Thomas, J K
description	Nanocrystalline Barium stannate (BaSnO sub(3)) was synthesized through auto-ignited combustion technique. The X-ray diffraction studies of BaSnO sub(3) nanoparticles reveals that the nanopowder is single phase, crystalline, and has a cubic perovskite structure with a lattice constant a = 4.115 Aa. The average particle size calculated from full width half maximum (FWHM) using Scherer formula is [inline image]25 nm. The phase purity of the powder was further examined using Fourier transform infrared spectroscopy, Raman spectroscopy and transmission electron microscopic techniques. XRD pattern of BaSnO sub(3) was refined for atomic coordinates, lattice parameters and occupancies using Rietveld analysis. Vibrational analysis of sample shows that there is a phase transition from distorted cubic to ideal cubic structure during heat treatment. The thermal stability of BaSnO sub(3) nanopowder has been confirmed using thermo gravimetric analysis (TGA) and differential thermal analysis (DTA). The particle size of the as-prepared powder from transmission electron microscopy was found to be in the range 20-30 nm. The absorption spectra and photoluminescence spectra of the sample were also studied. The band gap determined was 2.887 eV and found to be a semiconductor.
doi_str_mv	10.1016/j.jallcom.2010.10.056
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The X-ray diffraction studies of BaSnO sub(3) nanoparticles reveals that the nanopowder is single phase, crystalline, and has a cubic perovskite structure with a lattice constant a = 4.115 Aa. The average particle size calculated from full width half maximum (FWHM) using Scherer formula is [inline image]25 nm. The phase purity of the powder was further examined using Fourier transform infrared spectroscopy, Raman spectroscopy and transmission electron microscopic techniques. XRD pattern of BaSnO sub(3) was refined for atomic coordinates, lattice parameters and occupancies using Rietveld analysis. Vibrational analysis of sample shows that there is a phase transition from distorted cubic to ideal cubic structure during heat treatment. The thermal stability of BaSnO sub(3) nanopowder has been confirmed using thermo gravimetric analysis (TGA) and differential thermal analysis (DTA). The particle size of the as-prepared powder from transmission electron microscopy was found to be in the range 20-30 nm. The absorption spectra and photoluminescence spectra of the sample were also studied. 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The X-ray diffraction studies of BaSnO sub(3) nanoparticles reveals that the nanopowder is single phase, crystalline, and has a cubic perovskite structure with a lattice constant a = 4.115 Aa. The average particle size calculated from full width half maximum (FWHM) using Scherer formula is [inline image]25 nm. The phase purity of the powder was further examined using Fourier transform infrared spectroscopy, Raman spectroscopy and transmission electron microscopic techniques. XRD pattern of BaSnO sub(3) was refined for atomic coordinates, lattice parameters and occupancies using Rietveld analysis. Vibrational analysis of sample shows that there is a phase transition from distorted cubic to ideal cubic structure during heat treatment. The thermal stability of BaSnO sub(3) nanopowder has been confirmed using thermo gravimetric analysis (TGA) and differential thermal analysis (DTA). 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The X-ray diffraction studies of BaSnO sub(3) nanoparticles reveals that the nanopowder is single phase, crystalline, and has a cubic perovskite structure with a lattice constant a = 4.115 Aa. The average particle size calculated from full width half maximum (FWHM) using Scherer formula is [inline image]25 nm. The phase purity of the powder was further examined using Fourier transform infrared spectroscopy, Raman spectroscopy and transmission electron microscopic techniques. XRD pattern of BaSnO sub(3) was refined for atomic coordinates, lattice parameters and occupancies using Rietveld analysis. Vibrational analysis of sample shows that there is a phase transition from distorted cubic to ideal cubic structure during heat treatment. The thermal stability of BaSnO sub(3) nanopowder has been confirmed using thermo gravimetric analysis (TGA) and differential thermal analysis (DTA). The particle size of the as-prepared powder from transmission electron microscopy was found to be in the range 20-30 nm. The absorption spectra and photoluminescence spectra of the sample were also studied. The band gap determined was 2.887 eV and found to be a semiconductor.</abstract><doi>10.1016/j.jallcom.2010.10.056</doi></addata></record>
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subjects	Barium stannate Combustion Differential thermal analysis Lattice parameters Nanocomposites Nanomaterials Nanostructure Semiconductors
title	Structural and optical characterization of BaSnO sub(3) nanopowder synthesized through a novel combustion technique
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