Add to ORKGSolid electrolyte materials are crucial for the development of high‐energy‐density all‐solid‐state batteries (ASSB) using a nonflammable electrolyte. In order to retain a low lithium‐ion transfer resistance, fast lithium ion conducting solid electrolytes are required. We report on the novel superionic conductor Li9AlP4 which is easily synthesised from the elements via ball‐milling and subsequent annealing at moderate temperatures and which is characterized by single‐crystal and powder X‐ray diffraction. This representative of the novel compound class of lithium phosphidoaluminates has, as an undoped material, a remarkable fast ionic conductivity of 3 mS cm−1 and a low activation energy of 29 kJ mol−1 as determined by impedance spectroscopy....
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All-solid-state batteries based on non-combustible solid electrolytes are promising candidates for s...
Sulfide electrolytes show great potential as solid electrolytes for all-solid-state batteries due to...
Lithium-ion-conducting solid electrolytes hold promise for enabling high-energy battery chemistries ...
Solid electrolytes with superionic conductivity are required as a main component for all-solid-state...
Solid electrolytes with superionic conductivity are required as a main component for all-solid-state...
Phosphide‐based compounds are promising materials for solid electrolytes. In recent times, a multipl...
Phosphide‐based compounds are promising materials for solid electrolytes. In recent times, a multipl...
Phosphide‐based compounds are promising materials for solid electrolytes. In recent times, a multipl...
ABSTRACT: Solid electrolytes that are chemically stable and have a high ionic conductivity would dra...
Solid electrolytes that are chemically stable and have a high ionic conductivity would dramatically ...
All-solid-state batteries based on non-combustible solid electrolytes are promising candidates for s...
All-solid-state batteries based on non-combustible solid electrolytes are promising candidates for s...
Lithium argyrodite superionic conductors are currently being investigated as solid electrolytes for ...
Lithium argyrodite superionic conductors are currently being investigated as solid electrolytes for ...
Non-crystalline Li+-ion solid electrolytes (SEs), such as lithium phosphorous oxynitride, can unique...
All-solid-state batteries based on non-combustible solid electrolytes are promising candidates for s...
Sulfide electrolytes show great potential as solid electrolytes for all-solid-state batteries due to...
Lithium-ion-conducting solid electrolytes hold promise for enabling high-energy battery chemistries ...
Solid electrolytes with superionic conductivity are required as a main component for all-solid-state...
Solid electrolytes with superionic conductivity are required as a main component for all-solid-state...
Phosphide‐based compounds are promising materials for solid electrolytes. In recent times, a multipl...
Phosphide‐based compounds are promising materials for solid electrolytes. In recent times, a multipl...
Phosphide‐based compounds are promising materials for solid electrolytes. In recent times, a multipl...
ABSTRACT: Solid electrolytes that are chemically stable and have a high ionic conductivity would dra...
Solid electrolytes that are chemically stable and have a high ionic conductivity would dramatically ...
All-solid-state batteries based on non-combustible solid electrolytes are promising candidates for s...
All-solid-state batteries based on non-combustible solid electrolytes are promising candidates for s...
Lithium argyrodite superionic conductors are currently being investigated as solid electrolytes for ...
Lithium argyrodite superionic conductors are currently being investigated as solid electrolytes for ...
Non-crystalline Li+-ion solid electrolytes (SEs), such as lithium phosphorous oxynitride, can unique...
All-solid-state batteries based on non-combustible solid electrolytes are promising candidates for s...
Sulfide electrolytes show great potential as solid electrolytes for all-solid-state batteries due to...
Lithium-ion-conducting solid electrolytes hold promise for enabling high-energy battery chemistries ...
