Li–S batteries have good application
potential
due to their
high theoretical energy density/capacity, being widely studied in
recent years. However, due to the high reactivity between Li and S
and the low efficiency of ion transfer in electrolyte, side reactions
and Li dendrite growth could easily happen and reduce the stability
or the cycling life of Li–S batteries. In this work, a kind
of Lewis acid, i.e., iodopentafluorobenzene (IPFB), is adopted as
an electrolyte additive to regulate ion configurations and SEI formation.
The Lewis acid property of IPFB could help adsorb anions in electrolyte,
which could participate in SEI formation and weaken local space charge
near the anode surface, hence realizing a uniform ion distribution
and Li deposition. As a result, a long cycling stability of Li||Li
cells for over 600 h at 3 mA cm–2 under 3 mAh cm–2 and a 40-cycle high stability at 0.4 C of Li–S
pouch cells are achieved. The induction of Lewis acid into electrolytes
could be a potential and facile strategy for realizing uniform Li
deposition and high-performance Li–S pouch cells