In Situ Separator Modification with an N-Rich Conjugated Microporous Polymer for the Effective Suppression of Polysulfide Shuttle and Li Dendrite Growth

Abstract
Lithium-sulfur (Li-S) batteries are very promising high-energy-density electrochemical energy storage devices, but suffer from serious Li polysulfide (LiPS) shuttle and uncontrollable Li dendrite growth. Here, we show in situ polyolefin separator modification with an N-rich conjugated microporous polymer (NCMP) for advanced Li-S battery. In situ polymerization generates an ultrathin NCMP coating on the whole external surface and the internal surface of the separator, which is substantially different from the conventional approaches with thick coatings only on the external surface. The NCMP coating with abundant N-containing groups (-NH2 and -N=), uniform nanopores (12.294 angstrom), and pi-conjugated structure can simultaneously inhibit LiPS shuttle and regulate uniform nucleation and growth of Li dendrites. Consequently, the NCMP-based separator endows the Li-S battery with significantly enhanced cycling stability at high S loading (5.4 mg cm(-2)), lean electrolyte (E/S = 6.3 mu L mg(-1)), and limited Li excess (50 mu m).

Keywords Plus:POROUS MEMBRANESLITHIUMCHEMISTRYMECHANISMDENSITYDESIGN

Published in ACS APPLIED MATERIALS & INTERFACES;10.1021/acsami.2c15812,OCT 2022

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