低温合成磷酸三钙及相关材料

Phosphorus Research Bulletin Pub Date : 2021-01-01 DOI:10.3363/PRB.37.11

Toshiisa Konishi

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引用次数: 0

摘要

磷酸钙基陶瓷，特别是可生物降解的β-和α-三磷酸钙(TCP)，作为合成骨替代物受到了广泛的关注。虽然人们普遍认为β-和α-TCP都是高温多晶，β相在~1125℃以上转变为α相，但最近大量研究报道了在800℃以下合成TCP和相关材料(如镁或无镁whitlockite)的新方法。虽然已有几种TCP及其相关材料的合成方法的报道，但很少有人关注TCP及其相关材料的低温合成，而是采用常规方法。因此，本文将重点介绍TCP的低温合成及其相关材料。此外，还讨论了低温合成三维形状TCP及相关材料的未来策略。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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LOW-TEMPERATURE SYNTHESIS OF TRICALCIUM PHOSPHATE AND RELATED MATERIALS

: Calcium phosphate-based ceramics, in particular, biodegradable β- and α-tricalcium phosphate (TCP), have re-ceived much attention as synthetic bone substitutes. Although there is a consensus that β- and α-TCP are both high temperature polymorphs, in which the β phase transforms to the α phase at above ~1125 °C, recent extensive studies reported novel synthetic methods for TCP and related materials such as magnesium- or magnesium-free whitlockite at temperatures below 800 °C. While several synthesis methods for TCP and related materials have been reported, few have focused on the low-temperature synthesis of TCP and related materials, but rather on conventional methods. Therefore, the focus of this short review is upon the low-temperature synthesis of TCP and related materials. In addition, future strategies to synthesize three-dimensional shapes of TCP and related materials at low temperature are discussed.

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Phosphorus Research Bulletin

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