Mixed Phase Solid-State Plastic Crystal Electrolytes Based on a Phosphonium Cation for Sodium Devices

Na batteries are seen as a feasible alternative technology to lithium ion batteries due to the greater abundance of sodium and potentially similar electrochemical behavior. In this work, mixed phase electrolyte materials based on solid-state compositions of a trimethylisobutylphosphonium (P-111i4) bis(trifluromethanesulphonyl)amide (NTf2) organic ionic plastic crystal (OIPC) and high concentration of NaNTf2 that support safe, sodium metal electrochemistry are demonstrated. A Na symmetric cell can be cycled efficiently, even in the solid state (at 50 degrees C and 60 degrees C), for a 25 mol% (P111i4NTf2)-75 mol% NaNTf2 composition at 0.1 mA cm(-2) for 100 cycles. Thus, these mixed phase materials can be potentially used in Na-based devices under moderate temperature conditions. It is also investigated that the phase behavior, conductivity, and electrochemical properties of mixtures of NaNTf2 with this OIPC. It is observed that these mixtures have complex phase behavior. For high compositions of the Na salt, the materials are solid at room temperature and retain a soft solid consistency even at 50 degrees C with remarkably high conductivity, approaching that of the pure ionic liquid at 50 degrees C, i.e., 10(-3)-10(-2) S cm(-1).