Volume 9, Issue 1, November 2014, Pages 29–36

 

H. Ezzaier¹, Regis Guegan², Fabric Muller³, M. Ben Haj Amara⁴, and H. Ben Rhaiem<sup>5

1</sup> Laboratoire de physique des matériaux lamellaires et nanomatériaux hybrides, Institut de la science de la terre d'Orléans, Université d'Orléans, France
² Laboratoire de physique des matériaux lamellaires et nanomatériaux hybrides, Institut de la science de la terre d'Orléans, Université d'Orléans, France
³ Laboratoire de physique des matériaux lamellaires et nanomatériaux hybrides, Institut de la science de la terre d'Orléans, Université d'Orléans, France
⁴ Laboratoire de physique des matériaux lamellaires et nanomatériaux hybrides, Institut de la science de la terre d'Orléans, Université d'Orléans, France
⁵ Laboratoire de physique des matériaux lamellaires et nanomatériaux hybrides, Institut de la science de la terre d'Orléans, Université d'Orléans, France

Original language: English

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Abstract

Zinc sulfide ZnS have been synthesized in reserves cores micelles in PS synthesized by emulsion polymerization. The size and morphology of ZnS/PS particles have been characterized via XRD, TEM, IR, SEM and AFM measurement. The dielectric proprieties of ZnS/PS are synthesized membrane, obtaining a water-swelling percentage around 20% and filled with ZnS nanoparticules were studied as a function of particle coating. The complex permittivity was measured with a 7600 Meter dielectric spectroscopy analyzer at applied voltage of 1 V with frequency varying between 10Hz and up to 1 KHz at different temperatures measurements are performed in dry conditions.

Author Keywords: Zinc Sulfide, polystyrene, nanocomposites.