posted on 2020-02-28, 15:34authored byHyeon
Kook Seo, Yoon Hwa, Joon Ha Chang, Jae Yeol Park, Jae Sang Lee, Jungjae Park, Elton J. Cairns, Jong Min Yuk
Understanding of
lithium polysulfide (Li-PS) formation and the
shuttle phenomenon is essential for practical application of the lithium/sulfur
(Li/S) cell, which has superior theoretical specific energy (2600
Wh/kg). However, it suffers from the lack of direct observation on
behaviors of soluble Li-PS in liquid electrolytes. Using in situ graphene
liquid cell electron microscopy, we have visualized formation and
diffusion of Li-PS simultaneous with morphological and phase evolutions
of sulfur nanoparticles during lithiation. We found that the morphological
changes and Li-PS diffusion are retarded by ionic liquid (IL) addition
into electrolyte. Chronoamperometric shuttle current measurement confirms
that IL addition lowers the experimental diffusion coefficient of
Li-PS by 2 orders of magnitude relative to that in IL-free electrolyte
and thus suppresses the Li-PS shuttle current, which accounts for
better cyclability and Coulombic efficiency of the Li/S cell. This
study provides significant insights into electrolyte design to inhibit
the polysulfide shuttle phenomenon.