NMR determination of ionic structure in plasticized polyether-urethane polymer electrolytes

Ahstract--23Na and r9F nuclear magnetic resonance spectroscopy is used to investigate the effect of plasticizer addition on ionic structure and mobility in a urethane crosslinked polyether solid polymer electrolyte. The incorporation of dimethyl formamide and propylene carbonate plasticizers in a so

The pulsed field gradient spin echo technique has been used to measure the self-diffusion coefficients of both the cation and anion in LiCF,SO, PEO, systems as a function of concentration and temperature. In addition, the ionic conductivities were determined by ac conductivity measurements. The temp

Ionic conductivities of the polymer electrolytes prepared from the ionomer (poly(methy1 methacrylate-co-alkali metal methacrylate)), lithium perchlorate, and ethylene carbonate as a plasticizer, were studied as a function of the ion content and the alkali-metal cation of the ionomer. It was possible

Solid-state NMR studies of composite polymer electrolytes are reported. The materials consist of polyethylene oxide and an organic inorganic composite, together with a lithium salt, and are candidates for electrolytes in solid-state lithium ion batteries. Silicon and aluminum MAS and multiple quantu

The addition of low molecular weight solvents such as dimethyl formamide (DMF) and propylene carbonate (PC) to urethane crosslinked polyethers results in enhancement of polymer segmental motion, as determined in this work from polymer i3C spin lattice relaxation measurements (T,) and glass transitio