Synthesis of silicated hydroxyapatite Ca10(PO4)6−x(SiO4)x(OH)2−x

This work is devoted to the preparation of carbonated calcium phosphate apatites. The aim was to produce dense ceramics containing various and precisely controlled amounts of carbonate ions partially substituting either for phosphate (B-type apatites) or for hydroxide ions (A-type apatites). Powders

Crystals of rare earth element-(REE)-bearing hydroxyapatites [La+OHAp, Nd+OHAp, Sm+OHAp, Dy+OHAp; Ca 10؊6x؊2y Na y REE 6x؉y (P 1؊x Si x O 4 ) 6 (OH) 2 , with x ‫؍‬ 0.036, y ‫؍‬ 0.045; space group P2 1 /b] have been grown from H 2 O-and Na-rich phosphate melts and their structures re5ned in space gro

Single phase (Sr I -x, K2,)Zra(PO4)6, where x lies between 0.0 and 1.0, ceramic powder with a submicron scale particle size has been synthesized successfully at calcination temperatures as low as 650-750 ~ by a sol-gel technique. The formation of the powder strongly depends on calcination temperatur

## Abstract The Co~2~(OH)(PO~4~)~1–__x__~(AsO~4~)__~x~__ [0 ≤ __x__ ≤ 1] solid solution was prepared by hydrothermal synthesis and, polycrystalline samples characterized by X‐ray powder diffraction and spectroscopic measurements. The cell parameters of the isostructural phosphate–arsenate phases fo