Polar optical phonons in core–shell semiconductor nanowires

Abstract Control of surface defects and impurity doping are important keys to realizing devices that use semiconductor nanowires (NWs). As a structure capable of suppressing impurity scattering, p-Si/i (intrinsic)-Ge core-shell NWs with radial heterojunctions inside the NWs were formed. When forming NWs using a top-down method, the positions of the NWs can be controlled, but their surface is damaged. When heat treatment for repairing surface damage is performed, the surface roughness of the NWs closely depends on the kind of atmospheric gas. Oxidation and chemical etching prior to shell formation removes the surface damaged layer on p-SiNWs and simultaneously achieves a reduction in the diameter of the NWs. Finally, hole gas accumulation, which is important for suppressing impurity scattering, can be observed in the i-Ge layers of p-Si/i-Ge core-shell NWs.

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Vertically Aligned Hybrid Core/Shell Semiconductor Nanowires for Photonics Applications

Advanced Functional Materials ◽

10.1002/adfm.201301120 ◽

2013 ◽

Vol 23 (48) ◽

pp. 5981-5989 ◽

Cited By ~ 26

Author(s):

Manuel Macias-Montero ◽

A. Nicolas Filippin ◽

Zineb Saghi ◽

Francisco J. Aparicio ◽

Angel Barranco ◽

...

Keyword(s):

Semiconductor Nanowires ◽

Core Shell ◽

Vertically Aligned

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Fabrication of Axial and Radial Heterostructures for Semiconductor Nanowires by Using Selective-Area Metal-Organic Vapor-Phase Epitaxy

Journal of Nanotechnology ◽

10.1155/2012/169284 ◽

2012 ◽

Vol 2012 ◽

pp. 1-29 ◽

Cited By ~ 13

Author(s):

K. Hiruma ◽

K. Tomioka ◽

P. Mohan ◽

L. Yang ◽

J. Noborisaka ◽

...

Keyword(s):

Vapor Phase ◽

Surface Passivation ◽

Substrate Surface ◽

Semiconductor Nanowires ◽

Vapor Phase Epitaxy ◽

Core Shell ◽

Photoluminescence Intensity ◽

Organic Vapor ◽

Selective Area ◽

Metal Organic

The fabrication of GaAs- and InP-based III-V semiconductor nanowires with axial/radial heterostructures by using selective-area metal-organic vapor-phase epitaxy is reviewed. Nanowires, with a diameter of 50–300 nm and with a length of up to 10 μm, have been grown along the〈111〉B or〈111〉A crystallographic orientation from lithography-defined SiO2mask openings on a group III-V semiconductor substrate surface. An InGaAs quantum well (QW) in GaAs/InGaAs nanowires and a GaAs QW in GaAs/AlGaAs or GaAs/GaAsP nanowires have been fabricated for the axial heterostructures to investigate photoluminescence spectra from QWs with various thicknesses. Transmission electron microscopy combined with energy dispersive X-ray spectroscopy measurements have been used to analyze the crystal structure and the atomic composition profile for the nanowires. GaAs/AlGaAs, InP/InAs/InP, and GaAs/GaAsP core-shell structures have been found to be effective for the radial heterostructures to increase photoluminescence intensity and have enabled laser emissions from a single GaAs/GaAsP nanowire waveguide. The results have indicated that the core-shell structure is indispensable for surface passivation and practical use of nanowire optoelectronics devices.

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