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Porous silicon optical microcavity for chemical sensing application using tris-(8-hydroxyquinoline) aluminum (Alq3)

Published online by Cambridge University Press:  02 August 2010

A. Bardaoui ,
R. Bchir ,
H. Hamzaoui  and
R. Chtourou
A. Bardaoui*
Affiliation:
Laboratoire de Photovoltaïque, Semiconducteurs et Nanostructures, Centre de Recherche et des Technologies de l'Énergie, BP 95, Hammam-Lif, 2050, Tunisia
R. Bchir
Affiliation:
Laboratoire de Photovoltaïque, Semiconducteurs et Nanostructures, Centre de Recherche et des Technologies de l'Énergie, BP 95, Hammam-Lif, 2050, Tunisia
H. Hamzaoui
Affiliation:
Laboratoire de Valorisation des Ressources Naturelles et des Matériaux de Récuperation, Centre National de Recherche en Science des Matériaux, BP 95, Hammam-Lif, 2050, Tunisia
R. Chtourou
Affiliation:
Laboratoire de Photovoltaïque, Semiconducteurs et Nanostructures, Centre de Recherche et des Technologies de l'Énergie, BP 95, Hammam-Lif, 2050, Tunisia
*
afrah.bardaoui@crten.rnrt.tn
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Abstract

The present paper reports the study of a porous silicon based microcavity for a potential chemical sensing application using tris-(8-hydroxyquinoline) aluminum (Alq3) molecules. Porous silicon based planar microcavity was first designed and fabricated using the electrochemical etching technique. Photoluminescence emission of a single porous silicon layer after immersion in an Alq3 solution was first carried out in order to verify that the Alq3 molecules were bound to the porous surface. A wide green band centered at 519 nm, typical of a nano-structured Alq3 film, was observed. Reflectivity measurements of the porous silicon microcavity were then performed for different aluminum concentrations of the Alq3 solution. The microcavity device showed a good sensibility for the Alq3 molecules and an important shift of the microcavity photonic resonance was observed. This device might be considered for a potential aluminiun sensing application.

Type
Research Article
Information
The European Physical Journal - Applied Physics , Volume 51 , Issue 3: Focus on Flexible Organic Electronics , September 2010 , 30701
Copyright
© EDP Sciences, 2010

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