Lithium substituted poly(amic acid) as a water-soluble anode binder for high-temperature pre-lithiation
| Date Published |
02/2022
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|---|---|
| Publication Type | Journal Article
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| Authors | |
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| DOI |
10.1016/j.jpowsour.2021.230889
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| 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
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| Year of Publication |
2022
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| Pagination |
230889
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| ISSN Number |
03787753
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| URL | |
| Short Title |
Journal of Power Sources
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| Organizations | |
| Research Areas | |
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