Optimization of GaN Nanorod Growth Conditions for Coalescence Overgrowth

Abstract

The growth and fabrication of GaN nanorod (NR) light-emitting diode (LED) arrays have attracted much attention because of their advantages of higher crystal quality, larger sidewall emission area, and non-polar or semi-polar quantum well (QW) formation. This report describes development of regularly-patterned GaN NR LED arrays grown on a patterned template with either continuous or pulsed growth mode using metal-organic vapor-phase epitaxy (MOVPE). Such an array device is expected to be useful for practical lighting application. Usually, with the pulsed growth mode, by switching group-III and V sources on and off alternatively, the NR geometry can be more uniform over an array. InGaN/GaN QWs can be deposited on the c-plane top face, m-plane sidewalls, and {1-101}-plane slant facets on a c-axis-oriented NR with the highest (lowest) growth rate in the c-plane ({1-101}-plane). After the overgrowth of p-GaN on an NR with n-GaN core and QW deposition, an NR LED array can be implemented by covering the NRs with a transparent conductor. It has been demonstrated that the optical and electrical performances of an NR LED array can be comparable to those of a planar LED. Further developments in NR LED growth and process techniques can lead to an outperforming LED device with the NR structure.

Document Details

Document Type

Technical Report

Publication Date

Feb 04, 2016

Accession Number

ADA635078

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