We have demonstrated that PEG-based polymer electrolytes prepared by solvent-free procedures and with the addition of particle-size ceramic powder have very stable lithium interface properties--a very important feature for the development of successful lithium metal polymer batteries (LPBs). The results of cyclability tests at different charge-discharge rates carried out on prototypes of LPBs assembled with the dry prepared PEO20-LiCF3SO3-20%w/w gamma LiAlO2 composite electrolyte and with a composite cathode based on LiMn2O4 spinel operating at 3V are reported and discussed.
An improved composite polymer electrolyte for lithium metal batteries
Alberto Zanelli
1999
Abstract
We have demonstrated that PEG-based polymer electrolytes prepared by solvent-free procedures and with the addition of particle-size ceramic powder have very stable lithium interface properties--a very important feature for the development of successful lithium metal polymer batteries (LPBs). The results of cyclability tests at different charge-discharge rates carried out on prototypes of LPBs assembled with the dry prepared PEO20-LiCF3SO3-20%w/w gamma LiAlO2 composite electrolyte and with a composite cathode based on LiMn2O4 spinel operating at 3V are reported and discussed.File in questo prodotto:
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