Mixed polyether lithium-ion conductors

salts with monomer functionality and bearing a perfluorosulfonate group have been synthesized. These salts contain one or two carbon double bonds and thus can be incorporated into crosslinked solvating ionomers. Another family possesses epoxy rings and can be copolymer&d with ethylene oxide. The res

Conductivity data for several new lithium ion conductors are presented. LiBN has a very open structure with intersecting tunnels in 2 dimensions. High ionic conductivity has been found at relatively low temperatures. Data indicate that the conductivity can be improved by suitable doping, as well as

The phase equilibria and conductivities of the LiF-LiH, LiF-LiOH, LiF-Li20, Li,S-Li,O, L&S-LiCl and Li2S-LiBr systems were investigated. All ternary single phases and two-phase mixtures are solid electrolytes which are thermodynamically stable in respect of reaction with elemental lithium (anode) an

Lithium ion conductors and proton conductors were developed in support of a large-area electrochromic transparency effort with the goal of identifying a polymer electrolyte that provides high ionic conductivity with good electrochemical and thermal stability. The best lithium ion conductor was found