hide
Free keywords:
Atoms, Binary alloys, Crystal atomic structure, Gallium compounds, Lithium, Lithium alloys, Lithium compounds, Magnesium compounds, Positive ions, Silicon compounds, Different structure, Group-subgroup relations, Li content, Peritectic formation temperature, Pseudo-binary systems, Space Groups, Structure type, Substitutional solid solutions, Synthesised, Temperature decrease, Single crystals
Abstract:
Samples of the pseudo-binary system Na2−xLixGa7 (x ≤ 1) were synthesized from the elements at 300 °C in sealed Ta ampoules or by the reaction of Na2Ga7 with LiCl. The peritectic formation temperature decreases with increasing Li content from 501(2) °C (x = 0) to 489(2) °C (x = 1). The boundary compositions Na2Ga7 and Na1Li1Ga7 crystallize with different structure types related by a group-subgroup relation. While the Na-rich compositions (x ≤ 0.5) represent a substitutional solid solution (space group Pnma), the Li-rich compositions feature an unconventional replacement mechanism in which Li atoms occupying interstitial positions induce vancancies at the Na positions (space group Cmce). The crystal structure of Na1Li1Ga7 (a = 8.562(1) Å, b = 14.822(2) Å, c = 11.454(2) Å; Z = 8) was determined from X-ray single-crystal diffraction data, and reveals an anionic framework comprising 12-bonded Ga12 icosahedra and 4-bonded Ga atoms, with alkali-metal atoms occupying channels and cavities. The arrangement of cations makes NaLiGa7 a new structure type within the MgB12Si2 structure family. Band structure calculations for the composition NaLiGa7 predict semiconducting behavior consistent with the balance [Na+]2[Li+]2[(Ga12)2−][Ga-]2, considering closo Wade clusters [(12b)Ga12]2− and Zintl anions [(4b)Ga]−. Susceptibility measurements indicate temperature-independent diamagnetic behavior. © 2024 The Royal Society of Chemistry.
