Add to ORKGWe investigate how to tailor the structural, crystallographic and optical properties of GaAs nanowires. Nanowires were grown by Au nanoparticle-catalyzed metalorganic chemical vapor deposition. A high arsine flow rate, that is, a high ratio of group V to group III precursors, imparts significant advantages. It dramatically reduces planar crystallographic defects and reduces intrinsic carbon dopant incorporation. Increasing V/III ratio further, however, instigates nanowire kinking and increases nanowire tapering. By choosing an intermediate V/III ratio we achieve uniform, vertically aligned GaAs nanowires, free of planar crystallographic defects, with excellent optical properties and high purity. These findings will greatly assist the develo...
In conventional planar growth of bulk III-V materials, a slow growth rate favors high crystallograph...
GaAs and InP based nanowires were grown epitaxially on GaAs or InP (111)B substrates by metalorganic...
GaAs and InP based III-V compound semiconductor nanowires were grown epitaxially on GaAs (or Si) (11...
We investigate how to tailor the structural, crystallographic and optical properties of GaAs nanowir...
We investigate how to tailor the structural, crystallographic and optical properties of GaAs nanowir...
We investigate how to tailor the structural, crystallographic and optical properties of GaAs nanowir...
We investigate how to tailor the structural, crystallographic and optical properties of GaAs nanowir...
We investigate how growth parameters may be chosen to obtain high quality GaAs nanowires suitable fo...
We investigate how growth parameters may be chosen to obtain high quality GaAs nanowires suitable fo...
ABSTRACT: Controlling the crystal quality and growth orientation of high performance III−V compound ...
In conventional planar growth of bulk III-V materials, a slow growth rate favors high crystallograph...
Gallium arsenide (GaAs) nanowires were grown vertically on GaAs (111)B substrate by gold particle-as...
Gallium arsenide (GaAs) nanowires were grown vertically on GaAs (111)B substrate by gold particle-as...
The semiconductor nanowire has been widely studied over the past decade and identified as a promisin...
In this study, we demonstrate that by merely limiting the As flux, the growth behavior and structura...
In conventional planar growth of bulk III-V materials, a slow growth rate favors high crystallograph...
GaAs and InP based nanowires were grown epitaxially on GaAs or InP (111)B substrates by metalorganic...
GaAs and InP based III-V compound semiconductor nanowires were grown epitaxially on GaAs (or Si) (11...
We investigate how to tailor the structural, crystallographic and optical properties of GaAs nanowir...
We investigate how to tailor the structural, crystallographic and optical properties of GaAs nanowir...
We investigate how to tailor the structural, crystallographic and optical properties of GaAs nanowir...
We investigate how to tailor the structural, crystallographic and optical properties of GaAs nanowir...
We investigate how growth parameters may be chosen to obtain high quality GaAs nanowires suitable fo...
We investigate how growth parameters may be chosen to obtain high quality GaAs nanowires suitable fo...
ABSTRACT: Controlling the crystal quality and growth orientation of high performance III−V compound ...
In conventional planar growth of bulk III-V materials, a slow growth rate favors high crystallograph...
Gallium arsenide (GaAs) nanowires were grown vertically on GaAs (111)B substrate by gold particle-as...
Gallium arsenide (GaAs) nanowires were grown vertically on GaAs (111)B substrate by gold particle-as...
The semiconductor nanowire has been widely studied over the past decade and identified as a promisin...
In this study, we demonstrate that by merely limiting the As flux, the growth behavior and structura...
In conventional planar growth of bulk III-V materials, a slow growth rate favors high crystallograph...
GaAs and InP based nanowires were grown epitaxially on GaAs or InP (111)B substrates by metalorganic...
GaAs and InP based III-V compound semiconductor nanowires were grown epitaxially on GaAs (or Si) (11...