Publication | Closed Access
Constructing a hollow microflower-like ZnS/CuS@C heterojunction as an effective ion-transport booster for an ultrastable and high-rate sodium storage anode
152
Citations
44
References
2021
Year
Materials ScienceChemical EngineeringElectrical EngineeringEngineeringNanotechnologyMetal AnodeElectrochemistryEffective Ion-transport BoosterUltralong Cycling LifeElectrochemical Energy StorageSodium BatteryChemistryAnode MaterialSodium-ion BatteriesCompetitive Rate Capability
Hollow microflowers-like ZnS/CuS@C heterojunction as an anode material for sodium storage delivers large reversible capacity, ultralong cycling life and competitive rate capability.
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