Publication | Open Access
Surface Reconstruction-Induced Coincidence Lattice Formation Between Two-Dimensionally Bonded Materials and a Three-Dimensionally Bonded Substrate
86
Citations
24
References
2014
Year
Sb2te3 FilmsEngineeringNanostructured SurfaceThree-dimensionally Bonded SubstrateUltrathin FilmsQuantum MaterialsSiliceneMolecular Beam EpitaxyEpitaxial GrowthSurface ReconstructionMaterials ScienceMaterials EngineeringReconstructed Substrate SurfacePhysicsSemiconductor MaterialLayered MaterialSurface CharacterizationSelf-assemblySurface ScienceApplied PhysicsThin Films
Sb2Te3 films are used for studying the epitaxial registry between two-dimensionally bonded (2D) materials and three-dimensional bonded (3D) substrates. In contrast to the growth of 3D materials, it is found that the formation of coincidence lattices between Sb2Te3 and Si(111) depends on the geometry and dangling bonds of the reconstructed substrate surface. Furthermore, we show that the epitaxial registry can be influenced by controlling the Si(111) surface reconstruction and confirm the results for ultrathin films.
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