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Raman, optical-absorption, and transmission electron microscopy study of size effects in germanium quantum dots
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1996
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EngineeringColloidal NanocrystalsSemiconductor NanostructuresIi-vi SemiconductorTo Raman PeakOptical PropertiesQuantum DotsQuantum MaterialsNanoscale ScienceGermanium Quantum DotsMaterials SciencePhysicsNanotechnologySize EffectsElectronic Joint DensityNanocrystalline MaterialNanophysicsNanomaterialsApplied PhysicsCondensed Matter PhysicsGe NanocrystalsGermanene
Quantum confinement effects in Ge nanocrystals in the size range 26–130 Å have been investigated both on the electronic joint density of states and Raman spectra. The high degree of crystallinity of the particles as well as the minimized interaction with the matrix allow detection of shift and broadening of the TO Raman peak, which can be compared with theoretical expectations based on phonon confinement. The evolution of Raman and absorption spectra and their dependence on the nanocrystal dimensions can be related.