Enhanced Performance of Ultraviolet AlGaN/GaN Photo‐HEMTs by Optimized Channel Isolation Schemes

Mondal, Ramit Kumar; Xiong, Zhongshu; Ghimire, Mohan Kumar; Lingaparthi, Ravikiran; Nethaji, Dharmarasu; Radhakrishnan, K; Kim, Munho

doi:10.1002/adom.202302602

Advanced Optical Materials

2024

DOI: 10.1002/adom.202302602

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Enhanced Performance of Ultraviolet AlGaN/GaN Photo‐HEMTs by Optimized Channel Isolation Schemes

Ramit Kumar Mondal,

Zhongshu Xiong,

Mohan Kumar Ghimire

et al.

Abstract: Solar blind ultraviolet (UV) photodetectors utilizing AlGaN/GaN high electron mobility transistor (HEMT) structure offer a very high responsivity, photo‐to‐dark current ratio (PDCR), and detectivity. However, the performance of conventional mesa‐isolated photo‐HEMT is limited due to current leakage paths through the side wall and AlGaN barrier. In this work, apart from conventional mesa‐type isolation, ion implantation and metal‐insulator‐semiconductor (MIS) schemes are adopted to isolate the channels of AlGaN… Show more

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Superior AlGaN/GaN‐Based Phototransistors and Arrays with Reconfigurable Triple‐Mode Functionalities Enabled by Voltage‐Programmed Two‐Dimensional Electron Gas for High‐Quality Imaging

Zhang,

Liang,

Yang

et al. 2024

Advanced Materials

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High‐quality imaging units are indispensable in modern optoelectronic systems for accurate recognition and processing of optical information. To fulfill massive and complex imaging tasks in digital age, devices with remarkable photoresponsive characteristics and versatile reconfigurable functions on a single device platform are in demand but remain challenging to fabricate. We report an AlGaN/GaN‐based double‐heterostructure, incorporated with a unique compositionally graded AlGaN structure to generate a channel of polarization‐induced two‐dimensional electrons that can be modulated to control electron separation, collection, and storage process in the channel of the fabricated phototransistor. As a result, when exposed to different light sources, the device shows reconfigurable multifunctional photoresponsive behaviors with superior characteristics owing to the successful programming of the 2DEGs by the combined gate and drain voltage inputs. A self‐powered mode with a responsivity over 100 A/W and a photoconductive mode with a responsivity of ∼108 A/W were achieved, with the ultimate demonstration of a 10×10 device array for imaging. More intriguingly, the device can be switched to photoelectric synapse mode, emulating synaptic functions to denoise the imaging process while prolonging the image storage capability. Demonstrating three‐in‐one operational characteristics in a single device offers a new path toward future integrated and multifunctional imaging units.This article is protected by copyright. All rights reserved

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Superior AlGaN/GaN‐Based Phototransistors and Arrays with Reconfigurable Triple‐Mode Functionalities Enabled by Voltage‐Programmed Two‐Dimensional Electron Gas for High‐Quality Imaging

Zhang,

Liang,

Yang

et al. 2024

Advanced Materials

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show abstract

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Enhanced Performance of Ultraviolet AlGaN/GaN Photo‐HEMTs by Optimized Channel Isolation Schemes

Cited by 1 publication

References 48 publications

Superior AlGaN/GaN‐Based Phototransistors and Arrays with Reconfigurable Triple‐Mode Functionalities Enabled by Voltage‐Programmed Two‐Dimensional Electron Gas for High‐Quality Imaging

Superior AlGaN/GaN‐Based Phototransistors and Arrays with Reconfigurable Triple‐Mode Functionalities Enabled by Voltage‐Programmed Two‐Dimensional Electron Gas for High‐Quality Imaging

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