Investigation on threshold voltage of p-channel GaN MOSFETs based on p-GaN/AlGaN/GaN heterostructure*

Li, Ruo-Han; Wuxiong, Fei; Tang, Rui; Wu, Zhangming; Duan, Chao; Zhang, Tao; Zhu, Dan; Zhang, Weihang; Zhao, Shenglei; Zhang, Jincheng; Hao, Yue

doi:10.1088/1674-1056/ac0793

Cited by 3 publications

(1 citation statement)

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“…They are favorable electronic and optical properties, including high carrier mobility, high breakdown voltage, high speed, and a considerable range of emissions in the visible spectrum [1]. There makes it possible to widely use in power electronic equipment, sensors, high-efficiency solar cells, high electron mobility transistors (HEMT), and other fields [2,3]. As an III-V nitride semiconductor, InxAl1-xN has a large and adjustable bandgap ranging from 0.7 eV to 6.2 eV [4], as well as excellent photoelectric properties, so it has become a current research hotspot.…”

Section: Introduction *mentioning

confidence: 99%

First-principles Calculations of the Electronic Structure and Optical Properties of Graphene-like InxAl1-xN Monolayers

Wang¹,

ZHAO²,

BAI³

et al. 2022

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This paper employs the Heyd-Scuseria-Ernzerhof (HSE) function to research electronic structures of monolayer InxAl1-xN with different compositions (x = 0, 0.25, 0.5, 0.75, 1) based on the first-principles, and the optical properties of single-layer InxAl1-xN are calculated by Generalized Gradient Approximation-Perdew Burke Ernzerhof (GGA-PBE) function. The influence of the electronic structure on the properties has been analyzed. Then the influence of doping quantity on the characteristics has been summarized, which also indicates the trend of the complex dielectric function and absorption spectrum. The calculation results show that with the increase of x, the static dielectric constant increases, the electron transition ability increases, and the absorption peak intensity in the light absorption spectrum increases. It can conclude that the InxAl1-xN compound can theoretically achieve the adjustable Eg and photoelectric performance with x, which will apply in making various optoelectronic devices, including solar cells and sensors.

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