A. A. Kiprianov scite author profile

A. A. Kiprianov

4Publications

90Citation Statements Received

161Citation Statements Given

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141

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St Petersburg University, Dalhousie University

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Oxyhalide silicate glasses

Kiprianov

Karpukhina

2006

Glass Phys Chem

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The data available in the literature on the properties and structure of silicate glasses containing halides are reviewed. The results of measurements of thermal, electrical, and chemical characteristics that illustrate effects associated with the incorporation of halogens (fluorine, chlorine) into the silicate glass matrix are summarized. Different concepts regarding the mechanisms of halogen incorporation are analyzed, and the structural role of halogens in glasses is discussed. The factors responsible for the volatilization of halogens in the course of synthesis and specific features of their dissolution in silicate melts are considered.

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Preferential Binding of Fluorine to Aluminum in High Peralkaline Aluminosilicate Glasses

et al. 2007

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For two series of fluoride-containing aluminosilicate glasses of high peralkaline type, we apply 27Al, 19F, 29Si, and 23Na NMR spectroscopy to understand the structural changes introduced by the addition of alkali fluorides. Adding fluoride in concentrations above the solubility limit causes crystallization of different phases in sodium and potassium glasses despite identical composition. However, the NMR spectra reveal that the structural evolution of the precrystallized states is similar in both series. In particular, fluorine coordinates exclusively to alkaline cations and aluminum. No indication of direct bonding with silicon was found from 19F --> 29Si cross-polarization experiments. In contrast to other glass systems, double resonance experiments in these peralkaline systems show that halide addition produces at most a minor fraction of tetrahedral aluminum containing fluorine in its coordination sphere. Instead, the fluorine addition prior to crystallization converts up to about 20% of the initial tetrahedral aluminum (1 mol % in absolute units) to 5- and 6-fold coordinated aluminum. A minor portion of five-coordinated aluminum groups is considered as the intermediate to the growing fraction of octahedral aluminum in the silicate matrix. The initialization of the crystallization process is correlated with the saturation of the silicate matrix by octahedral aluminum clusters segregating out under further doping by fluoride. It is suggested that the formation of the nonframework Al-F bonds is responsible for structural relaxation, reflected by the reduction of the glass transition temperature.

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Investigation into the Influence of Chloride Additives on the Properties of Alkali Silicate Glasses

Kiprianov

Karpukhina

Molodozhen

2004

Glass Physics and Chemistry

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Investigation of fluorine binding by lithium barium alkali silicate glass

Kiprianov

Pankratova

2014

Glass Phys Chem

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A. A. Kiprianov

Oxyhalide silicate glasses

Preferential Binding of Fluorine to Aluminum in High Peralkaline Aluminosilicate Glasses

Investigation into the Influence of Chloride Additives on the Properties of Alkali Silicate Glasses

Investigation of fluorine binding by lithium barium alkali silicate glass

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