Abstract The Li+ conductivity of Li 7 La 3 Zr 2 O 12 (LLZO) solid electrolytes was optimized
by controlling the addition of the dopant (Al) into the crystal structure. A solution-based …

Abstract Garnet structure electrolyte Li 7 La 3 Zr 2 O 12 (LLZO) exhibits high ionic
conductivity, high fracture toughness, and low strain during cycling. The mechanical stability …

Solid electrolytes (SEs) have gained increased attention for their promise to enable higher
volumetric energy density and enhanced safety required for future battery systems. SEs are …

Transition metal (TM) substitution has been widely applied to change complex oxides crystal
structures to create high energy density electrodes materials in high performance …

Oxide-based ionic conductors have attracted tremendous research interests due to their
wide applications in energy storage and conversion devices, such as photovoltaics, fuel …

Summary" Medium-entropy" highly disordered amorphous Li garnets, with≥ 4 unique local
bonding units (LBUs), hold promise for use as solid-state electrolytes in hybrid or all-solid …

Inorganic crystalline solid electrolytes exhibit exceptional room-temperature ionic
conductivities, giving them the potential to enable all-solid-state lithium (Li)-ion batteries …

Set forth herein are garnet material compositions, eg, lithium-stuffed garnets and lithium-
stuffed garnets doped with alumina, which are suitable for use as electrolytes and catholytes …

Abstract Li 6.28 Al 0.24 La 3 Zr 2 O 12 (Al-LLZO) solid electrolyte for Li-ion battery was
prepared by a microwave-assisted reactive sintering (MARS) method. When sintered by the …

To improve the performance of electrochemical devices, it is essential to understand the
effects of nonequilibrium motifs in solids, such as grain boundaries, amorphous phases, and …