Publication | Closed Access
Effect of Li doping on the magnetotransport properties of La0.7Ca0.3−yLiyMnO3 system: Decrease of metal–insulator transition temperature
74
Citations
12
References
2003
Year
Magnetic PropertiesEngineeringSolid-state ChemistryRandom DisorderMagnetic MaterialsBand GapMagnetismMetal–insulator Transition TemperatureIonic RadiusMaterials EngineeringMaterials ScienceSolid-state IonicOxide ElectronicsMagnetotransport PropertiesMagnetic MaterialFerromagnetismLi-ion Battery MaterialsNatural SciencesIonic ConductorApplied PhysicsCondensed Matter PhysicsFunctional MaterialsLa0.7ca0.3−yliymno3 System
With increasing the Li doping level in La0.7Ca0.3−yLiyMnO3 (0⩽y⩽0.3), the system is driven from a higher-conductivity regime to a lower-conductivity regime, which is in sharp contrast with the behavior of Na or K doping. Compared to those of K or Na, the ionic radius of Li is much smaller than that of Ca. Therefore, substitution of Ca by Li results in a smaller average A-site radius, narrowing the bandwidth and hence enhancing the band gap and resistivity. The effect of random disorder of La3+ and A2+ also plays an important role leading to charge localization.
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