Add to ORKGSeveral studies have demonstrated that MgH2 is a promising conversion-type anode toward Li. A major obstacle is the reversible capacity during cycling. Electrochemical co-existence of a mixed metal hydride-oxide conversion type anode is demonstrated for lithium ion batteries using a solid-state electrolyte. 75MgH2$25CoO anodes are obtained from optimized mixing conditions avoiding reactions occurring during high-energy ball-milling. Electrochemical tests are carried out to investigate the cycling capability and reversibility of the on-going conversion reactions. The cycling led to formation of a singleplateau nanocomposite electrode with higher reversibility yield, lowered discharge–charge hysteresis and mitigated kinetic effect at high C-r...
LiBH4 has been widely studied as a solid-state electrolyte in Li-ion batteries working at 120 °C due...
LiBH4 has been widely studied as a solid-state electrolyte in Li-ion batteries working at 120 °C due...
Previous studies have demonstrated that MgH<sub>2</sub> is a promising conversion-type anode toward ...
Several studies have demonstrated that MgH2 is a promising conversion-type anode toward Li. A major ...
The impact on the performance of conversion-type MgH2 anodes by using solid state electrolyte is rep...
Classical electrodes for Li-ion technology operate via an insertion/de-insertion process. Recently, ...
The state of the art of conversion reactions of metal hydrides (MH) with lithium is presented and di...
Conversion reactions in lithium batteries have been proved for several classes of materials, such as...
The recently developed metal hydride (MH)-based material is considered to be a potential negative ma...
International audienceMetallic and complex hydrides may act as anode and solid electrolytes in next ...
Conversion reactions in lithium batteries have been proved for several classes of materials, such as...
Today, lithium-ion batteries are widely used as power supplies in portable electronics such as lapto...
MgH2 has been recently proposed in 2008 as novel conversion material for negative electrodes in lith...
Magnesium hydride (MgH2) exhibits great potential for hydrogen and lithium storage. In this work, Mg...
Previous studies have demonstrated that MgH2 is a promising conversion-type anode toward Li with hig...
LiBH4 has been widely studied as a solid-state electrolyte in Li-ion batteries working at 120 °C due...
LiBH4 has been widely studied as a solid-state electrolyte in Li-ion batteries working at 120 °C due...
Previous studies have demonstrated that MgH<sub>2</sub> is a promising conversion-type anode toward ...
Several studies have demonstrated that MgH2 is a promising conversion-type anode toward Li. A major ...
The impact on the performance of conversion-type MgH2 anodes by using solid state electrolyte is rep...
Classical electrodes for Li-ion technology operate via an insertion/de-insertion process. Recently, ...
The state of the art of conversion reactions of metal hydrides (MH) with lithium is presented and di...
Conversion reactions in lithium batteries have been proved for several classes of materials, such as...
The recently developed metal hydride (MH)-based material is considered to be a potential negative ma...
International audienceMetallic and complex hydrides may act as anode and solid electrolytes in next ...
Conversion reactions in lithium batteries have been proved for several classes of materials, such as...
Today, lithium-ion batteries are widely used as power supplies in portable electronics such as lapto...
MgH2 has been recently proposed in 2008 as novel conversion material for negative electrodes in lith...
Magnesium hydride (MgH2) exhibits great potential for hydrogen and lithium storage. In this work, Mg...
Previous studies have demonstrated that MgH2 is a promising conversion-type anode toward Li with hig...
LiBH4 has been widely studied as a solid-state electrolyte in Li-ion batteries working at 120 °C due...
LiBH4 has been widely studied as a solid-state electrolyte in Li-ion batteries working at 120 °C due...
Previous studies have demonstrated that MgH<sub>2</sub> is a promising conversion-type anode toward ...