Philip Shields scite author profile

Existing barriers to efficient deep ultraviolet (UV) light-emitting diodes (LEDs) may be reduced or overcome by moving away from conventional planar growth and toward three-dimensional nanostructuring. Nanorods have the potential for enhanced doping, reduced dislocation densities, improved light extraction efficiency, and quantum wells free from the quantum-confined Stark effect. Here, we demonstrate a hybrid top-down/bottom-up approach to creating highly uniform AlGaN core–shell nanorods on sapphire repeatable on wafer scales. Our GaN-free design avoids self-absorption of the quantum well emission while preserving electrical functionality. The effective junctions formed by doping of both the n-type cores and p-type caps were studied using nanoprobing experiments, where we find low turn-on voltages, strongly rectifying behaviors and significant electron-beam-induced currents. Time-resolved cathodoluminescence measurements find short carrier liftetimes consistent with reduced polarization fields. Our results show nanostructuring to be a promising route to deep-UV-emitting LEDs, achievable using commercially compatible methods.

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High-Resolution Electron Backscatter Diffraction in III-Nitride Semiconductors

Vilalta‐Clemente

Naresh-Kumar

Nouf-Allehiani

et al. 2015

Microsc Microanal

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The large and increasing interest in III-nitrides semiconductors lies in the wide range of useful applications that can be achieved, from high electron mobility transistors (HEMTs) to light emitting LEDs and lasers. However, the III-nitride materials are usually epitaxially grown on foreign substrates, which lead to the formation of a large number of dislocations and significant strain variations in the epitaxial layers that seriously affect the performance of devices based upon them.

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Selective Area Growth of GaAs Nanowires and Microplatelet Arrays on Silicon by Hydride Vapor-Phase Epitaxy

Zeghouane

Grégoire

Chereau

et al. 2023

Crystal Growth & Design

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In this work, we demonstrate the growth of vertically oriented GaAs nanowires (NWs) and microplatelets directly on a patterned SiO2/Si(111) substrate by hydride vapor-phase epitaxy (HVPE). Direct condensation of GaAs on Si was achieved through a critical surface preparation under an As-controlled atmosphere. GaAs NWs were grown along the ⟨111⟩B direction with a hexagonal cross section when the hole opening diameter (D) in the SiO2 mask was below 350 nm. Larger apertures (D ≥ 500 nm) resulted in uniform microplatelets. This study highlights the capability of HVPE for selective area growth of GaAs directly on Si and thus the potential of HVPE as a generic heterointegration process for III–V semiconductors on silicon.

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Photoluminescence and Electroluminescence in InGaN/GaN Nano-rod Array LEDs Fabricated on a Wafer Scale

Shields

Chan

Read

et al. 2010

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Dataset for Structural and optical emission uniformity of m-plane InGaN single quantum wells in core-shell nanorods

Boulbar¹,

Vajargah²,

Edwards³

et al. 2016

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Philip Shields

Core–Shell Nanorods as Ultraviolet Light-Emitting Diodes

High-Resolution Electron Backscatter Diffraction in III-Nitride Semiconductors

Selective Area Growth of GaAs Nanowires and Microplatelet Arrays on Silicon by Hydride Vapor-Phase Epitaxy

Photoluminescence and Electroluminescence in InGaN/GaN Nano-rod Array LEDs Fabricated on a Wafer Scale

Dataset for Structural and optical emission uniformity of m-plane InGaN single quantum wells in core-shell nanorods

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