Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
MOCVD-Grown Indium Phosphide Nanowires for Optoelectronics
View through CrossRef
We demonstrate how growth parameters may be adopted to produce morphologically controlled high-quality indium phosphide (InP) nanowires suitable for optoelectronic device applications. Growth temperature, V/III ratio, and catalyst particle size have a significant effect on the morphology, crystallographic quality, and optical properties of the resulting nanowires. Significantly, we find that higher growth temperatures or higher V/III ratios promote the formation of wurtzite (WZ) nanowires while zinc-blende (ZB) nanowires are favourable at lower growth temperatures and lower V/III ratios. Results also show that InP nanowires grow preferably in the WZ crystal structure than the ZB crystal structure with increasing V/III ratio or decreasing diameter. This causes a blue-shift in the bandgap as growth temperature increases. These results show that careful control of growth temperature, V/III ratio and catalyst size are crucial for obtaining InP nanowires of a specific crystal structure needed for device applications.
Title: MOCVD-Grown Indium Phosphide Nanowires for Optoelectronics
Description:
We demonstrate how growth parameters may be adopted to produce morphologically controlled high-quality indium phosphide (InP) nanowires suitable for optoelectronic device applications.
Growth temperature, V/III ratio, and catalyst particle size have a significant effect on the morphology, crystallographic quality, and optical properties of the resulting nanowires.
Significantly, we find that higher growth temperatures or higher V/III ratios promote the formation of wurtzite (WZ) nanowires while zinc-blende (ZB) nanowires are favourable at lower growth temperatures and lower V/III ratios.
Results also show that InP nanowires grow preferably in the WZ crystal structure than the ZB crystal structure with increasing V/III ratio or decreasing diameter.
This causes a blue-shift in the bandgap as growth temperature increases.
These results show that careful control of growth temperature, V/III ratio and catalyst size are crucial for obtaining InP nanowires of a specific crystal structure needed for device applications.
Related Results
Fabrication of Indium-Tin Alloy and Oxide Nanowires Using Extrusion Molding Process in the Air
Fabrication of Indium-Tin Alloy and Oxide Nanowires Using Extrusion Molding Process in the Air
A simple method to indium tin alloy and oxide nanowires were achieved by using the extrusion molding process in the air. Eutectic indium tin bulk were firstly injected into AAO tem...
On-chip fabrication of lateral growth ZnO nanowire array UV sensor
On-chip fabrication of lateral growth ZnO nanowire array UV sensor
In this paper, we integrate nano technology into traditional microelectronic processing, and develop an on-chip UV sensor based on lateral growth ZnO nanowire arrays. Traditional p...
Impact of Zinc Phosphide on Hematology, Behaviour and Proximate Composition of Oreochromis niloticus
Impact of Zinc Phosphide on Hematology, Behaviour and Proximate Composition of Oreochromis niloticus
Zinc phosphide is a rodenticide, crystalline compound of dark grey color. It is present in many pesticides and when sprayed on plants it gains entry into food and water. Objective:...
Indium and Indium Compounds
Indium and Indium Compounds
AbstractIndium is a very soft, silvery metal and its abundance is about 0.05 ppm in the earth's crust. It is widely distributed, but never in concentrations high enough to justify ...
Reliability Assessment of Indium Micro Bumps for 2.5D/3D Electronic Packaging Through Cryo-Argon Milling Technique
Reliability Assessment of Indium Micro Bumps for 2.5D/3D Electronic Packaging Through Cryo-Argon Milling Technique
Indium bumps are widely used in electronic packaging for interconnecting microelectronic devices due to their low melting point of 156.6 degrees C, excellent bonding capabilities a...
Microbial nanowires with genetically modified peptide ligands to sustainably fabricate electronic sensing devices
Microbial nanowires with genetically modified peptide ligands to sustainably fabricate electronic sensing devices
AbstractNanowires have substantial potential as the sensor component in electronic sensing devices. However, surface functionalization of traditional nanowire and nanotube material...
Adsorption effect of oxygen on ZnO Nanowires (100 nm) leading towards pronounced edge effects and voltage enhancement
Adsorption effect of oxygen on ZnO Nanowires (100 nm) leading towards pronounced edge effects and voltage enhancement
Abstract
Here, we report high output piezoelectric voltage generation from oxidized ZnO nanowires (100 nm). Periodic high output voltage peaks were observed during s...
MOCVD Preparation and Photoluminescence of ZnS Nanowires
MOCVD Preparation and Photoluminescence of ZnS Nanowires
An original MOCVD reactor was developed to grow zinc sulphide nanowires. The design of a heater system to have an improved control of the process and to obtain homogenous depositio...