Neutron diffraction and electrochemical studies on LiIrSn4

Large quantities of single phase, polycrystalline LiIrSn₄ have been synthesised from the elements by melting in sealed tantalum tubes and subsequent annealing. LiIrSn₄ crystallises with an ordered version of the PdGa₅ structure: I4/mcm, a=655.62(8), . The lithium atoms were clearly localised from a neutron powder diffraction study: R_P=0.147 and R_F=0.058. Time-dependent electrochemical polarisation techniques, i.e. coulometric titration, chronopotentiometry, chronoamperometry and cyclic voltammetry were used to study the kinetics of lithium ion diffusion in this stannide. The range of homogeneity (Li_1+ΔδIrSn₄, −0.091?δ?+0.012) without any structural change in the host structure and the chemical diffusion coefficient (∼10⁻⁷-10⁻⁹ cm²/s) point out that LiIrSn₄ is a first example of a large class of intermetallic compounds with lithium and electron mobility. Optimised materials from these ternary lithium alloys may be potential electrode material for rechargeable lithium batteries.