Effects of LiBF 4 Addition on the Lithium-Ion Conductivity of LiBH 4

Effects of LiBF 4 Addition on the Lithium-Ion Conductivity of LiBH 4

Complex hydrides, such as LiBH , are a promising class of ion conductors for all-solid-state batteries, but their application is constrained by low ion mobility at room temperature. Mixing with halides or complex hydride anions, i.e., other complex hydrides, is an effective approach to improving the...

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Bibliographic Details
Published in:Molecules (Basel, Switzerland) Vol. 27; no. 7
Main Authors: de Kort, Laura M, Gulino, Valerio, Blanchard, Didier, Ngene, Peter
Format: Journal Article
Language:English
Published: Switzerland 28-03-2022
Subjects:
interface effects
ionic conductivity
lithium borohydride
complex hydrides
ion substitution
solid-state electrolytes
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Summary:Complex hydrides, such as LiBH , are a promising class of ion conductors for all-solid-state batteries, but their application is constrained by low ion mobility at room temperature. Mixing with halides or complex hydride anions, i.e., other complex hydrides, is an effective approach to improving the ionic conductivity. In the present study, we report on the reaction of LiBH with LiBF , resulting in the formation of conductive composites consisting of LiBH , LiF and lithium -borates. It is believed that the in-situ formation of -borate related species gives rise to highly conductive interfaces in the decomposed LiBH matrix. As a result, the ionic conductivity is improved by orders of magnitude with respect to the Li-ion conductivity of the LiBH , up to 0.9 × 10 S cm at 30 °C. The insights gained in this work show that the incorporation of a second compound is a versatile method to improve the ionic conductivity of complex metal hydrides, opening novel synthesis pathways not limited to conventional substituents.
ISSN:1420-3049