Lithium substituted poly(amic acid) as a water-soluble anode binder for high-temperature pre-lithiation

Date Published
02/2022
Publication Type
Journal Article
Authors
DOI
10.1016/j.jpowsour.2021.230889
Abstract

Multifunctional binders hold great promise in advanced electrode designs for both fundamental research and practical utilization of lithium-ion batteries (LIBs). The reactions between Si/SiOx-dominated anodes with lithium are expected to be exothermic in principle, while the thermal tolerance along with the volume change makes high-temperature binders attractive for large scale roll-to-roll manufacturing. For instance, if a high temperature binder is also water soluble, it can be compatible with the current graphite-based anode manufacturing process. In this work, we present a water-soluble poly(amic acid)-based binder, which can withstand high temperature for industrial pre-lithiation process and effectively hold active materials together during repeated charge and discharge cycles. This lithium substituted poly(amic acid) binder (denoted as Li-Pa) can serve as a drop-in replacement for environmentally friendly electrode fabrication in large scale by providing aqueous solubility, exceptional thermal stability and mechanical flexibility.

Journal
Journal of Power Sources
Volume
521
Year of Publication
2022
Pagination
230889
ISSN Number
03787753
URL
Short Title
Journal of Power Sources
Organizations
Research Areas
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