Effects of surface oxide formation on germanium nanowire band-edge photoluminescence

The effect of intentional surface oxide formation on band-edge photoluminescence (PL) of Ge nanowires was investigated. Thermal oxidation in molecular O-2 was used to produce a surface oxide layer on assemblies of single crystal nanowires grown by the vapor-liquid-solid method. With increasing oxidation of the wires, the band-edge PL associated with the indirect gap transition becomes more intense. X-ray photoelectron spectroscopy confirms the formation of an increasingly GeO2-like surface oxide under annealing conditions that enhance the indirect-gap PL, consistent with surface oxide passivation of nonradiative recombination centers initially present on the nanowire surface. (C) 2013 AIP Publishing LLC.

Effects of surface oxide formation on germanium nanowire band-edge photoluminescence

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Microstructure - Electrochemical Surface Reactivity Relationship of Electrochemically Grown Manganese Oxides Films

Growth and Doping Mechanisms of III-V Nanostructures by Selective Area Epitaxy

Colloidal Atomic Layer Deposition on Nanocrystals Using Ligand-Modified Precursors

Microstructure - Electrochemical Surface Reactivity Relationship of Electrochemically Grown Manganese Oxides Films

Growth and Doping Mechanisms of III-V Nanostructures by Selective Area Epitaxy

Colloidal Atomic Layer Deposition on Nanocrystals Using Ligand-Modified Precursors