Synthesis and Characterization of Three New Lithium‐Scandium Hexathiohypodiphosphates: Li 4–3x Sc x P 2 S 6 ( x = 0.358), m ‐LiScP 2 S 6 , and t ‐LiScP 2 S 6

We report the first examples of lithium rare earth metal hexathiohypodiphosphates(IV). Three new lithium‐scandium hexathiohypodiphosphates(IV) were synthesized and characterized. The compounds crystallize in three different structure types, featuring isolated ethane‐like [P 2 S 6 ] 4– hexathiohypodiphosphate(IV) units. Li 2.926 Sc 0.358 P 2 S 6 or Li 4–3 x Sc x P 2 S 6 ( x = 0.358) crystallizes in the space group P 3 1 m (no. 162) with a = b = 6.0966(5) Å, c = 6.5866(6) Å, V = 212.02(4) Å 3 , and Z = 1. The compound is isostructural to Li 2 FeP 2 S 6 as well as the Li ion conductor Li 4–2 x Mg x P 2 S 6 ( x = 1/3, 2/3). Monoclinic LiScP 2 S 6 was found to be a layered compound with van der Waals gaps. The layers consist of edge sharing octahedra that are occupied by Li, Sc, and P 2 in an alternating fashion. It is isostructural to LiAlP 2 S 6 and crystallizes in the space group C 2/ c (no. 15) with a = 6.933(1) Å, b = 10.754(2) Å, c = 11.694(2) Å, β = 94.41(3)°, V = 869.3(3) Å 3 , and Z = 4. Trigonal LiScP 2 S 6 crystallizes in the space group P 3 1 c (no. 163) with a = b = 6.363(1) Å, c = 12.386(3) Å, V = 434.3(2) Å 3 , and Z = 2, and is isostructural to AgInP 2 S 6 and AgScP 2 S 6 . Its structure is closely related to the monoclinic version, except that trigonal LiScP 2 S 6 features disordered [P 2/2 P 6/6 S 6 ] 4– units. The new phases were investigated by Raman spectroscopy, thermal analysis, and DFT calculations. We further demonstrate that Li 4–3 x Sc x P 2 S 6 shows significantly enhanced Li ion conductivity compared to the parent compound Li 4 P 2 S 6 .