An <i>in situ</i> dual-modification strategy for O3-NaNi<sub>1/3</sub>Fe<sub>1/3</sub>Mn<sub>1/3</sub>O<sub>2</sub> towards high-performance sodium-ion batteries - Concepedia

Concepedia

Publication | Closed Access

An <i>in situ</i> dual-modification strategy for O3-NaNi<sub>1/3</sub>Fe<sub>1/3</sub>Mn<sub>1/3</sub>O<sub>2</sub> towards high-performance sodium-ion batteries

80

Citations

37

References

2023

Year

Ningyun Hong, Jianwei Li, Shihong Guo, Huawei Han, Haoji Wang, Xinyu Hu, Jiangnan Huang, Baichao Zhang, Fang Hua, Song Bai,

Journal of Materials Chemistry A

EngineeringSolid-state ChemistryChemistryChemical EngineeringV-modified NfmNanoelectronicsSodium BatteryHigh-performance Sodium-ion BatteriesSodium-ion BatteriesMaterials ScienceMaterials EngineeringElectrical EngineeringBattery Electrode MaterialsAdvanced Electrode MaterialEnergy StorageHigh Rate CapacitySemiconductor MaterialSemiconductor Device FabricationSolid-state BatteryMicroelectronicsElectrochemistryLi-ion Battery MaterialsApplied PhysicsElectrochemical Energy StorageBatteriesChemical Vapor DepositionInterface Shielding

Abstract

The V-modified NFM that couples broader Na+ diffusion layer with interface shielding is successfully in situ synthesized to exhibit a high rate capacity and excellent cycling stability with 75.8% capacity retention for 500 cycles for SIBs.

References

	Year	Citations

Page 1