Structure and Ionic Conductivity of Li-Disordered Bismuth o-Thiophosphate Li(60–3x)Bi(16+x)(PS(4))(36)

[Image: see text] The structure of the first lithium-containing bismuth ortho (o)-thiophosphate was determined using a combination of powder X-ray, neutron, and electron diffraction. Li(60–3x)Bi(16+x)(PS(4))(36) with x in the range of 4.1–6.5 possesses a complex monoclinic structure [space group C2/c (No. 15)] and a large unit cell with the lattice parameters a = 15.4866 Å, b = 10.3232 Å, c = 33.8046 Å, and β = 85.395° for Li(44.4)Bi(21.2)(PS(4))(36), in agreement with the structure as observed by X-ray and neutron pair distribution function analysis. The disordered distribution of lithium ions within the interstices of the dense host structure and the Li ion dynamics and diffusion pathways have been investigated by solid-state nuclear magnetic resonance (NMR) spectroscopy, pulsed field gradient NMR diffusion measurements, and bond valence sum calculations. The total lithium ion conductivities range from 2.6 × 10(–7) to 2.8 × 10(–6) S cm(–1) at 20 °C with activation energies between 0.29 and 0.32 eV, depending on the bismuth content. Despite the highly disordered nature of lithium ions in Li(60–3x)Bi(16+x)(PS(4))(36), the underlying dense host framework appears to limit the dimensionality of the lithium diffusion pathways and emphasizes once more the necessity of a close inspection of the structure–property relationships in solid electrolytes.