Publication | Closed Access
Direct Imaging of Atomic Scale Structure and Electronic Properties of GaAs Wurtzite and Zinc Blende Nanowire Surfaces
71
Citations
53
References
2013
Year
EngineeringElectronic PropertiesAtomic Scale StructureSemiconductor NanostructuresIi-vi SemiconductorAxial StackingTunneling MicroscopyNanoelectronicsGaas WurtziteNanometrologyNanoscale ScienceMaterials SciencePhysicsNanotechnologyBand Gap RegionSemiconductor MaterialScanning Probe MicroscopySurface ScienceApplied PhysicsCondensed Matter PhysicsGaas Nanowires
Using scanning tunneling microscopy and spectroscopy we study the atomic scale geometry and electronic structure of GaAs nanowires exhibiting controlled axial stacking of wurtzite (Wz) and zinc blende (Zb) crystal segments. We find that the nonpolar low-index surfaces {110}, {101[overline]0}, and {112[overline]0} are unreconstructed, unpinned, and without states in the band gap region. Direct comparison between Wz and Zb GaAs reveal a type-II band alignment and a Wz GaAs band gap of 1.52 eV.
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