Solid‐State Batteries: Overcoming the Interfacial Limitations Imposed by the Solid–Solid Interface in Solid‐State Batteries Using Ionic Liquid‐Based Interlayers (Small 14/2020)

Syed Atif Pervez; Guktae Kim; Bhaghavathi P. Vinayan; Musa A. Cambaz; Matthias Kuenzel; Maral Hekmatfar; Maximilian Fichtner; Stefano Passerini

Journal ArticleOPEN ACCESS

Solid‐State Batteries: Overcoming the Interfacial Limitations Imposed by the Solid–Solid Interface in Solid‐State Batteries Using Ionic Liquid‐Based Interlayers (Small 14/2020)

Pervez S
Kim G
Vinayan B
et al.

Small (2020) 16(14)

DOI: 10.1002/smll.202070078

N/ACitations

6Readers

Abstract

In article number 2000279, Maximilian Fichtner, Stefano Passerini, and co-workers demonstrate improved interfacial properties of a lithium lanthanium zirconate (LLZO) solid-electrolyte (SE)-based solid-state battery by employing ionic liquid interlayers at the electrode/electrolyte junctions. This strategy lowers the interfacial resistances and suppresses Li dendrite formation, thus enabling high Li reversibility with the SE. As a result, cells stacked in bipolar configuration deliver excellent electrochemical performance.

Cite

CITATION STYLE

APA

Pervez, S. A., Kim, G., Vinayan, B. P., Cambaz, M. A., Kuenzel, M., Hekmatfar, M., … Passerini, S. (2020). Solid‐State Batteries: Overcoming the Interfacial Limitations Imposed by the Solid–Solid Interface in Solid‐State Batteries Using Ionic Liquid‐Based Interlayers (Small 14/2020). Small, 16(14). https://doi.org/10.1002/smll.202070078

Solid‐State Batteries: Overcoming the Interfacial Limitations Imposed by the Solid–Solid Interface in Solid‐State Batteries Using Ionic Liquid‐Based Interlayers (Small 14/2020)

Abstract

Cite

Register to see more suggestions