Nanocomposite Thin Films with Hybrid Inorganic/Organic Matrix for the Modification of Silicon‐Based Implants

Abstract

Thin nanocomposite hybrid films were deposited by r.f. magnetron sputtering. These were composed of of SiO2, poly(propylene) (PP) and SiO2/PP, with Ag contents varying from 0 to 30 at.‐%. The influence of metal concentration on the properties of the deposited surfaces was evaluated. The chemical composition, chemical structure, morphology, dynamic wettability behavior, and microstructure were studied. The overall properties of the inorganic/organic system are more influenced by those of the ceramic fraction than by the polymeric one. The hysteresis of the contact angle shows that all the surfaces interact with water and that the presence of the metallic element increases reactivity in an aqueous medium. These results show promising applications in the biomedical field particularly in those that use silicon as a biomaterial for implants.

Nanocomposites thin films with a hybrid inorganic/organic matrix for the modification of silicon neural implants were deposited by r.f. sputtering. The presence of hydrophilic domains on the surface was assessed by contact angle hysteresis which indicates promising results for their use as biomedical devices.

Authors:		Nunes, Jorge; Santos, Rita J.; Loureiro, Vera; Piedade, Ana P.
Journal:		Plasma Processes and Polymers
Year:		2012
Pages:		n/a
DOI:		10.1002/ppap.201100089
Publication date:		27-03-2012

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