Preparation of V2O5 porous microstructures with enhanced performances of lithium ion batteries

“…[7][8][9] However, the V2O5 cathode materials still suffer from low electronic conductivity and slow electrochemical kinetics, resulting in poor cycling performance and high-rate capability. [10,11] According to previous reports, fabricating nanostructure (such as nanobelts, [12] nanowires, [13] and nanosheets [14] ) has been proven to be an effective strategy to boost the electrochemical performance of V2O5 material. Nanostructure can provide more reaction sites for the lithium storage reaction and enhance the electrochemical activity.…”

Enhanced Lithium Storage Performance of Al-Doped V₂O₅ Nanowire Cathode Materials

“…[7][8][9] However, the V2O5 cathode materials still suffer from low electronic conductivity and slow electrochemical kinetics, resulting in poor cycling performance and high-rate capability. [10,11] According to previous reports, fabricating nanostructure (such as nanobelts, [12] nanowires, [13] and nanosheets [14] ) has been proven to be an effective strategy to boost the electrochemical performance of V2O5 material. Nanostructure can provide more reaction sites for the lithium storage reaction and enhance the electrochemical activity.…”

Enhanced Lithium Storage Performance of Al-Doped V₂O₅ Nanowire Cathode Materials

V4+-V2O5 nano-plate material for effectively improving lithium storage performance of lithium-ion batteries

Improving the high-voltage electrochemical performance of LiNi0.5Co0.2Mn0.3O2 cathode material by Al2O3/graphene co-modification