α及びβ-ビス(オルトリン酸)三カルシウムに対するOH<SUP>−</SUP>及びF<SUP>−</SUP>イオンの 競争攻撃によるフッ素化アパタイトの生成

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タイトル別名
  • Formation of Fluoridated Hydroxyapatite by Competitive Attack of OH- and F- ions onto .ALPHA.- or .BETA.-Tricalcium Bis (Orthophosphate)
  • Formation of Fluoridated Hydroxyapatite by Competitive Attack of OH〔-〕 and F〔-〕 ions onto α- or β-Tricalcium Bis(Orthophosphate)
  • Formation of Fluoridated Hydroxyapatite by Competitive Attack of OH and F ions onto アルファ or ベータ Tricalcium Bis Orthophosphate

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説明

The process of formation of fluoridated hydroxyapatite, [Ca10(PO4)6(OH)2−2xF2x] (FHAp) through the hydrolysis of α- or β-tricalcium bis (orthophosphate), [Ca3(PO4)2] (α- or β-TCP) in the presence of fluoride ions (F) was examined. The presence of F ions improved the hydrolysis of both TCPs. The quantity of F ions incorporated into the apatite increased with the molar ratio (R) of ammonium fluoride to TCP (R=NH4F/TCP). When R=0.7, the molar ratio of Ca/P in the products, which contained small amount of CO32− ion, was 1.68. On the other hand, for R=0.18 or 0.35, the Ca/P ratio decreased to 1.61–1.64. This phenomenon indicates the formation of Ca-deficient FHAps containing HPO42− (and CO32−) ions. FHAp formed from α-TCP contained fine particles with a size smaller than 0.5 μm, and needle-like crystals whose width depended on the value of R. FHAp formed from β-TCP was needle-like for R=0.18, and spindle-like for R=0.70. Differences in the hydrolysis process between α-TCP and β-TCP were observed. α-TCP is attacked by OH and F ions which compete in the formation of FHAp crystals on the surface of the α-TCP particles. On the other hand, β-TCP is attacked by F ions and forms clusters, and then some of the F ions that are incorporated in the clusters are liberated, depending on the F ion concentration in the solution. The clusters loosing F ions incorporate OH ions to form FHAp. The F ions liberated from the clusters then again attack the residual β-TCP . When R=0.18, at an early stage, FHAp with a composition close to fluorapatite [Ca10(PO4)6F2] (FAp) was formed. Then, following the reduction of the F ion concentration in the reaction media, FHAp with a composition close to hydroxyapatite, [Ca10(PO4)6(OH)2] (HAp), was formed.

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