Herein we investigate the use of a gel polymer membrane in a lithium-ion oxygen cell using a nanostructured LixSn–C alloy anode. The gel polymer membrane, studied in terms of ionic conductivity and electrochemical stability, actually enhances the performances of the LixSn–C/O2 full cell in respect to the bare liquid electrolyte, due to a mitigated oxygen crossover from the cathode to the anode side. Indeed, the protective effect of the gel polymer membrane avoids excessive increase of the interphase resistance, as demonstrated by the study of the time evolution of open circuit voltage and by electrochemical impedance spectroscopy. The use of the gel polymer membrane as well as the replacement of lithium metal by a safe Li-alloying electrode are considered valid strategies suitable for the practical improvement of lithium-ion oxygen battery with increased safety content and enhanced electrochemical performances.
A gel polymer membrane for lithium-ion oxygen battery
HASSOUN, Jusef
2016
Abstract
Herein we investigate the use of a gel polymer membrane in a lithium-ion oxygen cell using a nanostructured LixSn–C alloy anode. The gel polymer membrane, studied in terms of ionic conductivity and electrochemical stability, actually enhances the performances of the LixSn–C/O2 full cell in respect to the bare liquid electrolyte, due to a mitigated oxygen crossover from the cathode to the anode side. Indeed, the protective effect of the gel polymer membrane avoids excessive increase of the interphase resistance, as demonstrated by the study of the time evolution of open circuit voltage and by electrochemical impedance spectroscopy. The use of the gel polymer membrane as well as the replacement of lithium metal by a safe Li-alloying electrode are considered valid strategies suitable for the practical improvement of lithium-ion oxygen battery with increased safety content and enhanced electrochemical performances.I documenti in SFERA sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.