Add to ORKGMetallic and complex hydrides may act as anode and solid electrolytes in next generation of lithium batteries. Based on the conversion reaction with lithium to form LiH, Mg- and Ti-based anode materials have been tested in half-cell configuration with solid electrolytes derived from the hexagonal high temperature modification of the complex hydride LiBH 4 . These anode materials show large first discharge capacities demonstrating their ability to react with lithium. Reversibility remains more challenging though possible for a few dozen cycles. The work has been extended to full-cell configuration by coupling metallic lithium with positive electrodes such as sulfur or titanium disulfide through complex hydride solid electrolytes. Beside pure...
Complex hydrides, such as LiBH4, are a promising class of ion conductors for all-solid-state batteri...
The state of the art, commercial used graphite anode materials are far from meeting the increasing d...
Several studies have demonstrated that MgH2 is a promising conversion-type anode toward Li. A major ...
Metallic and complex hydrides may act as anode and solid electrolytes in next generation of lithium ...
A central goal in current battery research is to increase the safety and energy density of Li-ion ba...
The recently developed metal hydride (MH)-based material is considered to be a potential negative ma...
Automotive and stationary energy storage are among the most recently-proposed and still unfulfilled ...
The development of efficient storage systems is one of the keys to the success of the energy transit...
Energy density and safety are the main factors that govern the development of the rechargeable batte...
The state of the art of conversion reactions of metal hydrides (MH) with lithium is presented and di...
The impact on the performance of conversion-type MgH2 anodes by using solid state electrolyte is rep...
Automotive and stationary energy storage are among the most recently-proposed and still unfulfilled...
[Abstract] Complex hydrides show energy-related functions such as hydrogen storage, neutron shieldin...
International audienceHydrides have been used since a long time for solid-state hydrogen storage and...
The properties of the mixed system LiBH$_{4}$–LiCl–P$_{2}$S$_{5}$ are studied with respect to all-so...
Complex hydrides, such as LiBH4, are a promising class of ion conductors for all-solid-state batteri...
The state of the art, commercial used graphite anode materials are far from meeting the increasing d...
Several studies have demonstrated that MgH2 is a promising conversion-type anode toward Li. A major ...
Metallic and complex hydrides may act as anode and solid electrolytes in next generation of lithium ...
A central goal in current battery research is to increase the safety and energy density of Li-ion ba...
The recently developed metal hydride (MH)-based material is considered to be a potential negative ma...
Automotive and stationary energy storage are among the most recently-proposed and still unfulfilled ...
The development of efficient storage systems is one of the keys to the success of the energy transit...
Energy density and safety are the main factors that govern the development of the rechargeable batte...
The state of the art of conversion reactions of metal hydrides (MH) with lithium is presented and di...
The impact on the performance of conversion-type MgH2 anodes by using solid state electrolyte is rep...
Automotive and stationary energy storage are among the most recently-proposed and still unfulfilled...
[Abstract] Complex hydrides show energy-related functions such as hydrogen storage, neutron shieldin...
International audienceHydrides have been used since a long time for solid-state hydrogen storage and...
The properties of the mixed system LiBH$_{4}$–LiCl–P$_{2}$S$_{5}$ are studied with respect to all-so...
Complex hydrides, such as LiBH4, are a promising class of ion conductors for all-solid-state batteri...
The state of the art, commercial used graphite anode materials are far from meeting the increasing d...
Several studies have demonstrated that MgH2 is a promising conversion-type anode toward Li. A major ...