The feasibility of polyether-based all-solid-state cells has been assessed in a joint research and development program. At 80 -100 C, cells using TiS2 or V6O13 positive-electrode material and excess lithium show high material utilization at 0.5-1.0 mA/cm2 and can be cycled more than 250 times. Furthermore, a new family of polyether electrolytes has been found that allows room temperature (26 C) operation at 3-20 muA/cm2.
Assessment of polymer-electrolyte batteries for EV and ambient temperature applications
Wertung von Batterien mit Polymerelektrolyt fuer Elektrofahrzeuge und Anwendungen bei Umgebungstemperaturen
Journal of the Electrochemical Society ; 132 , 6 ; 1333-1340
1985
8 Seiten, 7 Quellen
Aufsatz (Zeitschrift)
Englisch
ELEKTROFAHRZEUG , GALVANISCHE SEKUNDAERBATTERIE , POLYMER , ELEKTROLYT , ORGANISCHER ELEKTROLYT , TEMPERATURABHAENGIGKEIT , RAUMTEMPERATUR , UMGEBUNGSTEMPERATUR , FESTKOERPER , TITAN , SULFID , VANADIUM , OXID , FORSCHUNG , TECHNISCHE ENTWICKLUNG , STROMDICHTE , LITHIUM , KREISLAUF , POLYETHER , TITANSULFID , VANADIUMOXID , POLYMERELEKTROLYT
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