Research of post lithium ion batteries is attracting considerable attention. While there have been significant advancements in understanding the challenges of Li-O2 and Li-S, the development of gas separation and ion selective membranes will be crucial in their commercialization due to their potential to separate O2 from air and impeding polysulfide dissolution while permitting rapid diffusion of lithium ions. In addition, research of novel and highly conductive and selective polymer electrolytes will be essential in overcoming the challenges of liquid based electrolytes in both the air and sulfur based battery systems.
Polymers: Opening Door to Future Batteries
BOARETTO, NICOLA;DI NOTO, VITO
2015
Abstract
Research of post lithium ion batteries is attracting considerable attention. While there have been significant advancements in understanding the challenges of Li-O2 and Li-S, the development of gas separation and ion selective membranes will be crucial in their commercialization due to their potential to separate O2 from air and impeding polysulfide dissolution while permitting rapid diffusion of lithium ions. In addition, research of novel and highly conductive and selective polymer electrolytes will be essential in overcoming the challenges of liquid based electrolytes in both the air and sulfur based battery systems.
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