Structural and Optical Characterisation of an Erbium/Ytterbium Doped Hybrid Material Developed via a Nonhydrolytic Sol-Gel Route

Oubaha, M.; Copperwhite, R.; McDonagh, C.; Etienne, P.; MacCraith, B. D.

doi:https://doi.org/10.3814/2010/101747

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Research Article | Open Access

Volume 2010 | Article ID 101747 | https://doi.org/10.3814/2010/101747

Structural and Optical Characterisation of an Erbium/Ytterbium Doped Hybrid Material Developed via a Nonhydrolytic Sol-Gel Route

M. Oubaha,¹R. Copperwhite,¹C. McDonagh,¹P. Etienne,²and B. D. MacCraith¹

Received28 Jul 2009

Revised01 Oct 2009

Accepted01 Oct 2009

Published03 Jan 2010

Abstract

This paper proposes the development and structural characterisation of an Er3+/Yb3+ doped hybrid organic-inorganic material synthesised by a nonhydrolytic sol-gel process. By using a pumping laser diode at 980 nm, a typical Er3+ luminescence has been recorded in the near infrared region (1.53–1.55 μm). However, the detected fluorescence was particularly weak compared to that generally observed in pure mineral materials, suggesting the occurrence of strong quenching due to multiphonon relaxation processes. To understand this behaviour, structural characterisation of both of the matrix and the local environment of Er3+ ions were conducted employing infrared spectroscopy, nuclear magnetic resonance, electron paramagnetic resonance, and neutron scattering. These studies showed that the major phenomenon competing with the Er3+ fluorescence is intimately associated to the strong vibrational modes of the organic species that involve multiphonon relaxation processes, resulting in energy dissipation within the host matrix.

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Copyright © 2010 M. Oubaha et al. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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