Publication | Closed Access
Evidence for Anionic Excess Electrons in a Quasi-Two-Dimensional Ca<sub>2</sub>N Electride by Angle-Resolved Photoemission Spectroscopy
67
Citations
28
References
2016
Year
Charge ExcitationsEngineeringAngle-resolved Photoemission SpectroscopyElectronic StructureIi-vi SemiconductorElectron SpectroscopyQuantum MaterialsLayered Electride Ca2nPhysicsPhotoelectric MeasurementQuantum ChemistryAnionic Excess ElectronsLayered MaterialSolid-state PhysicInterlayer RegionTransition Metal ChalcogenidesNatural SciencesSpectroscopySurface ScienceApplied PhysicsCondensed Matter Physics
Angle-resolved photoemission spectroscopy (ARPES) study of a layered electride Ca2N was carried out to reveal its quasi-two-dimensional electronic structure. The band dispersions and the Fermi-surface map are consistent with the density functional theory results except for a chemical potential shift that may originate from the high reactivity of surface excess electrons. Thus, the existence of anionic excess electrons in the interlayer region of Ca2N is strongly supported by ARPES.
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