Powder x-ray diffraction study of halide sodalites

The monoclinic crystal structure of lithium chromium(III) diphosphate, LiCrP~2~O~7~, isotypic with other members of the series Li__M__ ^III^P~2~O~7~ (__M__ ^III^ = Mn, Fe, V, Mo, Sc and In), was refined from laboratory X-ray powder diffraction data using the Rietveld method. The Cr^3+^ cation is bon

2 (I) and Na 8 [AlGeO 4 ] 6 X 2 (II) (X: Cl, Br, I) is achieved in a LiNO 3 melt at 240 • C. The neutron diffraction results show that the framework collapse associated with the Li exchange is accomodated by cooperative rotation about the 4 axis and a decrease in the framework Ga-O-Si (Al-O-Ge) bond

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## Abstract The alloys of the Cu~2~CdSnSe~4~–Cu~2~MnSnSe~4~ system were investigated using the X‐ray powder method that showed the continuous solubility of the original system components at 670 K. The refinement of the crystal structures of Cu~2~MnSnSe~4~ (space group (SG) I&4macr;2m, __a__ = 0.573

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The structure of the semiconducting alloy Cu 2 Cd 0.5 Mn 0.5 GeSe 4 was refined from an X-ray powder diffraction pattern using the Rietveld method. The present alloy crystallizes in the wurtz-stannite structure, space group Pmn2 1 (Nº 31), and unit cell parameters values of a = 8.0253(2) Å, b = 6.85