posted on 2022-03-21, 20:13authored byJihoon Oh, Seung Ho Choi, Barsa Chang, Jieun Lee, Taegeun Lee, Nohjoon Lee, Hyuntae Kim, Yunsung Kim, Gahyeon Im, Sangheon Lee, Jang Wook Choi
Sulfide-based
all-solid-state batteries (ASSBs) offer enhanced
safety and potentially high energy density. Particularly, an “anode-less”
electrode containing metallic seeds that form a solid-solution with
lithium was recently introduced to improve the cycle life of sulfide-based
ASSB cells. However, this anode-less electrode is gradually destabilized
because the metal particles undergo severe volume expansion during
repeated cycling. Furthermore, the irreversibility of the electrode
in early cycles impairs the energy density of the cell significantly.
Herein, we introduce an elastic polymer known as “Spandex”
as a binder for the silver–carbon composite. The soft and hard
segments of this binder act synergistically in that the former engages
in strong hydrogen bonding with the active material and the latter
promotes elastic adjustment of the binder network. This binder design
significantly improves the charge–discharge reversibility and
long-term cyclability of the anode-less ASSB cell and provides insights
into elastic binder systems for high-capacity ASSB anodes that undergo
a large volume expansion.