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Electrical contact characteristics and regulatory effects of GaN/VSe<sub>2</sub> van der Waals heterojunction

欧姆接触 异质结 肖特基势垒 材料科学 肖特基二极管 光电子学 兴奋剂 电场 金属半导体结 半导体 凝聚态物理 纳米技术 物理 图层(电子) 二极管 量子力学
作者
Jiaxin Tang,Zhanhai Li,X.Q. Deng,Zhenhua Zhang
出处
期刊:Chinese Physics [Science Press]
卷期号:72 (16): 167101-167101 被引量:1
标识
DOI:10.7498/aps.72.20230191
摘要

Reducing the Schottky barrier at the metal-semiconductor interface and achieving Ohmic contacts are very important for developing high-performance Schottky field-effect devices. Based on the fact that GaN and 1T-VSe<sub>2</sub> monolayers have been successfully prepared experimentally, we theoretically construct a GaN/1T-VSe<sub>2</sub> heterojunction model and investigate its stability, Schottky barrier property and its modulation effects by using first-principle method. The calculated formation energy and the molecular dynamics simulations show that the constructed heterojunction is very stable, meaning that it can be realized experimentally. The intrinsic heterojunction holds a p-type Schottky contact and always keeps the same p-type Schottky contact when tensile or compressive strain is applied. But when the external electric field is applied, the situation is different. For example, a higher forward electric field can cause the heterojunction to change from a Schottky contact into an Ohmic contact, and a higher reverse electric field can lead to a variation from a p-type Schottky contact to an n-type Schottky contact. In particular, by implementing chemical doping, the transition from Schottky contact to Ohmic contact can be achieved more easily for the heterojunction. For example, the introduction of B atom enables the GaN/1T-VSe<sub>2</sub> heterojunction to realize a typical Ohmic contact, while for C and F atom doping, the GaN/1T-VSe<sub>2</sub> heterojunction can achieve a quasi-Ohmic contact. These studies provide a theoretical reference for the practical application of the suggested heterojunction, and are of very important in designing novel high-performance nano-scale electronic devices.
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