28 Jan Fluorine-free polysiloxane-based single-ion-conducting polymer electrolyte for lithium–metal batteries Back to Sci. Publications
AUTHORS
JOURNAL
Green Chemistry, 2025, 27, 8226-8236
DATE
20th May 2025
PRODUCTS
ABSTRACT
Herein, the synthesis and comprehensive characterization of a new, completely fluorine-free single-ion-conducting polymer electrolyte (SIPE) for lithium–metal batteries are reported. For this new SIPE, lithium(4-styrenesulfonyl)(dicyanomethide) has been grafted onto a polysiloxane backbone. Self-standing membranes additionally containing non-toxic polyacrylonitrile and propylene carbonate exhibit suitable mechanical properties, a high ionic conductivity of more than 10−4 S cm−1, and good anodic stability up to more than 4.1 V vs. Li+/Li at 40 °C. Symmetric Li∥Li cells show an excellent cycle life with more than 1000 h of lithium stripping and plating, thanks to the formation of a stable and low-resistive interphase. As a result, completely fluorine-free Li∥LiFePO4 cells provide stable cycling for more than 500 cycles, rendering this new electrolyte system very promising for the realization of more sustainable and safer lithium batteries.
KEYWORDS
fluorine-free polymer electrolyte, single-ion conducting polymer electrolyte, polysiloxane backbone, lithium-metal batteries, ionic conductivity
