Publication | Closed Access
<i>In situ</i> engineered ZnS–FeS heterostructures in N-doped carbon nanocages accelerating polysulfide redox kinetics for lithium sulfur batteries
148
Citations
61
References
2019
Year
EngineeringChemistryZns–fes HeterostructuresBuilding HeterostructuresChemical EngineeringDifferent BandgapsLi–s BatteriesPolysulfide Redox KineticsMaterials ScienceElectrical EngineeringLithium Sulfur BatteriesBattery Electrode MaterialsAdvanced Electrode MaterialLithium-ion BatteryLithium-ion BatteriesEnergy StorageSolid-state BatteryEnergy MaterialElectrochemistryElectric BatteryLi-ion Battery MaterialsApplied PhysicsElectrochemical Energy StorageBatteries
Building heterostructures containing dissimilar coupling components with different bandgaps can promote interfacial reaction kinetics and accelerate charge carrier transport for Li–S batteries.
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