Crystal Structure and Physical Properties of a New CuTi₂S₄ Modification in Comparison to the Thiospinel

Citations Over TimeTop 17% of 2004 papers

Abstract

A new modification of CuTi(2)S(4) was prepared from the elements at 425 degrees C. It crystallizes in the rhombohedral space group Rm, with lattice parameters of a = 7.0242(4) A, c = 34.834(4) A, and V = 1488.4(2) A(3) (Z = 12). Two topologically different interlayer regions exist between the close-packed S layers that alternate along the c axis: one comprises both Cu (in tetrahedral voids) and Ti atoms (in octahedral voids), and the second exclusively Ti atoms (again in octahedral voids). In contrast to the known modification, the spinel, Cu-Ti interactions of 2.88 A occur that have bonding character according to the electronic structure calculations. Both CuTi(2)S(4) modifications are metallic Pauli paramagnets due to Ti d contributions. The Pauli susceptibility of the Rm form is larger than that of the thiospinel in quantitative agreement with the LMTO-ASA band structure calculations. The irreversible transformation to the spinel takes place at temperatures above 450 degrees C.

Related Papers

• → Flexible Vertex Engineers the Controlled Assembly of Distorted Supramolecular Tetrahedral and Octahedral Cages(2022)13 cited
• → Crystal structure of calcium dinickel(II) iron(III) tris(orthophosphate): CaNi₂Fe(PO₄)₃(2017)6 cited
• → (1,10-phen)2Mo3O9: a new one-dimensional organic/inorganic hybrid material consisting of two {MoO4N2} octahedra and one {MoO4} tetrahedron alternately(2000)15 cited
• → Ideal wollastonite and the structural relationship between the pyroxenoids and pyroxenes(2016)8 cited
• → ChemInform Abstract: Cu₃(SeO₄)₂(SeO₃OH)₂ (H₂O)₁₆ — The First Example of a Linear Octahedral—Tetrahedral Heptamer in Inorganic Compounds.(2016)