Soft mechanochemical synthesis and thermal stability of hydroxyapatites with different types of substitution

Soft mechanochemical synthesis and thermal stability of hydroxyapatites with different types of substitution

The feasibility of soft mechanochemical synthesis was studied here for hydroxyapatite with various types of substitution. It was shown that this method allows obtaining hydroxyapatites substituted with copper or iron cations and hydroxyapatites cosubstituted with zinc cations and silicate groups. Th...

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Bibliographic Details
Main Authors: Natalya V. Eremina, Svetlana V. Makarova, Denis D. Isaev, Natalya V. Bulina
Format: Article
Language:English
Published: Ural Federal University 2022-07-01
Series:Chimica Techno Acta
Subjects:
mechanochemical synthesis
hydroxyapatite
substitution
iron
cupper
zinc
silicate
thermal stability
Online Access:https://chimicatechnoacta.ru/article/view/5988
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Summary:The feasibility of soft mechanochemical synthesis was studied here for hydroxyapatite with various types of substitution. It was shown that this method allows obtaining hydroxyapatites substituted with copper or iron cations and hydroxyapatites cosubstituted with zinc cations and silicate groups. Thermal stability of the synthesized samples was evaluated. It was found that to preserve phase homogeneity of the material, the temperature during the preparation of ceramic products and coatings should not exceed 600–800 °C. An exception is the hydroxyapatite where a hydroxyl group is expected to be replaced by a copper cation during the synthesis at a degree of substitution x = 0.5. For this sample, the temperature of the the heat treatment can be increased to 1100–1200 °C because copper cations return to the hydroxyapatite crystal lattice at these temperatures, and the material becomes single-phase.
ISSN:2411-1414

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