Cation Distribution in the (Mg1-xCux)3(PO4)2 Solid Solution, x = 0.46 and 0.79

## 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

Several compounds of the (Na 1؊x Li x )CdIn 2 (PO 4 ) 3 solid solution were synthesized by a solid-state reaction in air, and pure alluaudite-like compounds were obtained for x ‫؍‬ 0.00, 0.25, and 0.50. X-ray Rietveld re5nements indicate the occurrence of Cd 2؉ in the M(1) site, and of In 3؉ in the

Pure solid solutions \(\mathrm{Ca}_{3} \mathrm{Sn}_{2+x} \mathrm{Si}(\mathrm{Ge})_{1-x} \mathrm{Ga}_{2} \mathrm{O}_{12}\) with the garnet structure have been evidenced in the composition range \(0 \leq x \leq 0.95\). This implies that a part of the \(\mathrm{Sn}^{4+}\) cations (equal to \(x\) ) is l

Recently prepared Ce 3 (SiS 4 ) 2 I exhibits a strong room temperature luminescence in the blue region of the visible spectrum associated to a Ce III -5d 1 PCe III -4f 1 electronic transition. In order to approach the emission mechanisms, the La 3؊x Ce x (SiS 4 ) 2 I family has been investigated by