Solid-Liquid Lithium Electrolyte Nanocomposites Derived from Porous Molecular Cages.

Aaron PetronicoTimothy P MoneypennyBruno G NicolauJeffrey S MooreRalph G NuzzoAndrew A Gewirth

Published in: Journal of the American Chemical Society (2018)

We demonstrate that solid-liquid nanocomposites derived from porous organic cages are effective lithium ion electrolytes at room temperature. A solid-liquid electrolyte nanocomposite (SLEN) fabricated from a LiTFSI/DME electrolyte system and a porous organic cage exhibits ionic conductivity on the order of 1 × 10-3 S cm-1. With an experimentally measured activation barrier of 0.16 eV, this composite is characterized as a superionic conductor. Furthermore, the SLEN displays excellent oxidative stability up to 4.7 V vs Li/Li+. This simple three-component system enables the rational design of electrolytes from tunable discrete molecular architectures.

Keyphrases

ionic liquid
room temperature
solid state
ion batteries
reduced graphene oxide
metal organic framework
highly efficient
carbon nanotubes
tissue engineering
visible light
gold nanoparticles
water soluble
mass spectrometry