Journal of Nanomaterials & Molecular NanotechnologyISSN: 2324-8777

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Research Article, J Nanomater Mol Nanotechnol Vol: 7 Issue: 3

Rare Earth Yb3+ Doped Gd2O3 Single Phase Nanophosphors: Structural, Morphological and Photoluminescence Studies

Jeena TR1*, Raj AME1 and Bououdina M2,3

1Department of Physics and Research Centre, Scott Christian College, Nagercoil, Tamil Nadu, India

2Nanotechnology Centre, University of Bahrain, Bahrain

3Department of Physics, College of Science, University of Bahrain, Bahrain

*Corresponding Author : Jeena TR
Department of Physics and Research Centre, Scott Christian College, Nagercoil, Tamil Nadu, India
Tel: +91 7598100146
Fax:
+91 4652 229800
E-mail: trjeena2011@gmail.com

Received: May 11, 2018 Accepted: June 26, 2018 Published: July 02, 2018

Citation: Jeena TR, Raj AME, Bououdina M (2018) Rare Earth Yb3+ Doped Gd2O3 Single Phase Nanophosphors: Structural, Morphological and Photoluminescence Studies. J Nanomater Mol Nanotechnol 7:3. doi: 10.4172/2324-8777.1000250

Abstract

In this paper, a report has been acclaimed on the structural, morphological and photoluminescence properties of the pure and Yb3+ (2, 5 and 10 wt %) doped gadolinium oxide nanophosphor, synthesized by the citrate-nitrate auto combustion method. The influence of doping concentration on the properties of the prepared phosphor was studied using different characterization techniques. Structural studies carried out using XRD revealed crystalline cubic phase for both the pure and doped Gd2O3 nanoparticles. The phase formation and purity were further confirmed from the FTIR spectra. Surface morphology was found using SEM analysis showed the clusters of tiny particles. Optical absorption measurements were recorded in the UV-Vis-NIR wavelength region and the optical band gap variations with dopant concentration were discussed. The probable mechanism for the visible PL emissions by Yb3+ doped Gd2O3 phosphors are explained by different transition phenomenon. Fluorescence lifetime along with energy transfer efficiency from Gd3+ to Yb3+ was determined.

Keywords: Combustion synthesis; Gd2O3; XRD; SEM; PL; Fluorescence lifetime

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