Publication | Open Access
Systematic study of insulator-metal transitions in perovskites RNiO3 (R=Pr,Nd,Sm,Eu) due to closing of charge-transfer gap
1K
Citations
18
References
1992
Year
Rare Earth MineralCharge ExcitationsEngineeringMagnetic ResonanceHalide PerovskitesElectronic StructureMagnetismQuantum MaterialsCharge-transfer GapRare EarthMaterials SciencePhysicsInsulator-metal TransitionsPerovskite MaterialsSeries RLead-free PerovskitesDetailed BehaviorPerovskites Rnio3Solid-state PhysicQuantum MagnetismPerovskite Solar CellNatural SciencesApplied PhysicsCondensed Matter Physics
The detailed behavior of the phase transitions was mapped out for the series R${\mathrm{NiO}}_{3}$ as a function of the rare earth (R). A sharp insulator-metal transition is observed, which depends strongly on R.Forsmall$R it occurs at a higher temperature than the antiferromagnetic ordering (measured by muon-spin relaxation). By increasing either the temperature or the size of R, an insulator-metal transition is observed, most probably caused by the closing of the charge-transfer gap, induced by increase in the electronic bandwidth.
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