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Structural evolution of sol-gel SiO<inf>2</inf> heated glasses containing silver particles

Abstract:

SiO2 based glasses added with nanometric-silver particles have been prepared by the traditional sol-gel process, using the tetraethyl- orthosilicate alkoxide. The Ag particles were prepared using a new method described in this article, the method uses a cementation reaction between Ag ions and an iron electrode. The size of the particles, measured in the dried glass, was in the range of 100-200 nm. The observed structural changes depend on the annealing conditions, such as the annealing temperature, the amount of silver particles and the type of acid (HCl or HNO3) used to catalyze the hydrolysis/condensation reactions during the sol-gel process. Samples prepared using both acids crystallized into the cristobalite phase after thermal annealing at 800 °C. The amount of SiO2 crystallized depends on the amount of Ag present in the glass. Samples prepared from solutions catalyzed with HCl acid show the formation of nanometric Ag particles after thermal annealing at 500 °C, these small particles are not observed after similar treatments when HNO3 is used as the catalytic acid. HCl and Ag 2O form AgCl which is reduced by residual carbon to form Ag ultrafine particles. The diffusion of the reduced Ag spices, which form these particles, is facilitated by the opened structure of the glasses added with Ag, as indicated by IR measurements. © 2004 Elsevier Ltd. All rights reserved.