Add to ORKGComplex hydrides, such as LiBH4, 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 LiBH4 with LiBF4, resulting in the formation of conductive composites consisting of LiBH4, LiF and lithium closo-borates. It is believed that the in-situ formation of closo-borate related species gives rise to highly conductive interfaces in the decomposed LiBH4 matrix. As a result, the ionic conductivity is improved by orders of magnitude with respect to the Li-ion conductiv...
Solid-state electrolytes are crucial for the realization of safer batteries with improved capacity. ...
This study shows a flexible system that offers promising candidates for Li-based solid-state electro...
New molecular-salt-like hybrids contain ammonia borane (AB) in co-existence with lithium halides in ...
Complex hydrides, such as LiBH4, are a promising class of ion conductors for all-solid-state batteri...
A central goal in current battery research is to increase the safety and energy density of Li-ion ba...
This work was motivated by the extensive research on lithium solid state materials, which have attra...
Since the discovery of the high ionic conductivity in lithium borohydride at high-temperature, turni...
Designing new functional materials is crucial for the development of efficient energy storage and co...
The high energy density and excellent cycle performance of lithium ion batteries makes them superior...
Solid-state electrolytes are crucial for the realization of safe and high capacity all-solid-state b...
The properties of the mixed system LiBH$_{4}$–LiCl–P$_{2}$S$_{5}$ are studied with respect to all-so...
Complex metal hydride/oxide nanocomposites are a promising class of solid-state electrolytes. They e...
Abstract: Complex compounds show energy-related functions such as decomposition for hydrogen storage...
Solid state lithium ion conductors are important in the development of electrolytes for all-solid-st...
Complex hydrides have been attracting much attention as solid-state fast ionic conductors since we r...
Solid-state electrolytes are crucial for the realization of safer batteries with improved capacity. ...
This study shows a flexible system that offers promising candidates for Li-based solid-state electro...
New molecular-salt-like hybrids contain ammonia borane (AB) in co-existence with lithium halides in ...
Complex hydrides, such as LiBH4, are a promising class of ion conductors for all-solid-state batteri...
A central goal in current battery research is to increase the safety and energy density of Li-ion ba...
This work was motivated by the extensive research on lithium solid state materials, which have attra...
Since the discovery of the high ionic conductivity in lithium borohydride at high-temperature, turni...
Designing new functional materials is crucial for the development of efficient energy storage and co...
The high energy density and excellent cycle performance of lithium ion batteries makes them superior...
Solid-state electrolytes are crucial for the realization of safe and high capacity all-solid-state b...
The properties of the mixed system LiBH$_{4}$–LiCl–P$_{2}$S$_{5}$ are studied with respect to all-so...
Complex metal hydride/oxide nanocomposites are a promising class of solid-state electrolytes. They e...
Abstract: Complex compounds show energy-related functions such as decomposition for hydrogen storage...
Solid state lithium ion conductors are important in the development of electrolytes for all-solid-st...
Complex hydrides have been attracting much attention as solid-state fast ionic conductors since we r...
Solid-state electrolytes are crucial for the realization of safer batteries with improved capacity. ...
This study shows a flexible system that offers promising candidates for Li-based solid-state electro...
New molecular-salt-like hybrids contain ammonia borane (AB) in co-existence with lithium halides in ...