Mariano Pérez Amor scite author profile

The influence of the substitution of calcium oxide for sodium oxide in the composition of silica-based glasses on the in vitro bioactivity is presented. Valuable information on the active Si-O groups present in the glasses is obtained by Fourier Transform Raman and Infrared spectroscopies.In vitro test analysis by Scanning Electron Microscopy and Energy Dispersive X-ray Analysis show a correlation between the network disruption induced by the modifier type and the bioactive process. It is demonstrated that glasses with high SiO 2 content can be bioactive depending on the alkali/alkali-earth modifiers ratio included into the vitreous silica network.

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High-resolution SEM studies of chromate conversion coatings

Treverton¹,

Amor²

1988

J Mater Sci

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The Structures and Surface Composition of Chromate Conversion Coatings: An XPS and SEM Study

Treverton¹,

Amor²

1982

Transactions of the IMF

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Evaluation of the Glass Bioactivity Grade by IR Analysis and the Stevels Parameter

Borrajo

Liste

Serra

et al. 2005

KEM

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The structure of silica-based glasses consists on a disrupted network of SiO4 tetrahedra where network modifiers generate non-bridging oxygen groups (NBO), that play an important role at the initial steps of the bioactive process. Infrared spectroscopy is a sensitive technique to the presence of NBO groups and glass local structure modifications. The infrared study has been complemented with a theoretical approach using the Y Stevels parameter. Moreover, the in vitro bioactivity of the glasses as a function of Y Stevels paremeter has been studied, which can be a finding of a predictive tool for bioactivity of glasses.

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