III 氮化物异质结构金属-绝缘体-半导体高电子迁移率晶体管的阈值电压不稳定性:表征和界面工程

IF 11.9 1区 物理与天体物理 Q1 PHYSICS, APPLIED
Sen Huang, Xinhua Wang, Yixu Yao, Kexin Deng, Yang Yang, Qimeng Jiang, Xinyu Liu, Fuqiang Guo, Bo Shen, Kevin J. Chen, Yue Hao
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引用次数: 0

摘要

与肖特基和 p-GaN 栅极 HEMT 相比,基于 III 氮化物异质结构的金属-绝缘体-半导体高电子迁移率晶体管(MIS-HEMT)因其优异的栅极可靠性而在下一代大功率电子器件中展现出巨大潜力。本研究对基于三氮化物异质结构的 MIS-HEMT 的阈值电压(VTH)不稳定性进行了全面的研究,并特别强调了多异质结构的界面。作为基于氮化镓的 MIS-HEMT 中的主要栅极绝缘体,Al2O3 和 SiNx 这两种被广泛研究的非晶材料得到了广泛的探讨。为了有效去除 (Al)GaN 表面的原生氧化物,我们开发了一种新型原位高温远程等离子体预处理 (RPP) 技术。该技术包括在使用等离子体增强原子层沉积沉积栅极绝缘体之前,在(Al)GaN 表面连续使用 NH3/N2 等离子体。事实证明,无论氮化镓表面是否经过氧化或蚀刻过程,显着的 RPP 过程都是揭示氮化镓表面原子阶跃的高效方法。为了进一步提高界面质量并减少栅极绝缘体中的体陷阱,我们对沉积温度和沉积后退火条件进行了优化。此外,还在 MIS-HEMT 中加入了电子阻挡层(如 SiON),以防止电子注入绝缘体内的体陷阱。为探索 MIS-HEMT 的失效机制,还开发了包括恒电容和等温模式深层瞬态光谱在内的新型表征技术。通过这些技术,可以区分氮化镓外延中的体阱和栅极绝缘体中的体阱。这种深入的物理理解为了解基于氮化镓的 MIS-HEMT 的失效源提供了宝贵的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Threshold voltage instability in III-nitride heterostructure metal–insulator–semiconductor high-electron-mobility transistors: Characterization and interface engineering
III-nitride heterostructure-based metal–insulator–semiconductor high-electron-mobility transistors (MIS-HEMTs), compared with Schottky and p-GaN gate HEMTs, have demonstrated significant potential in the next-generation high-power electronic devices due to their exceptional gate reliability. This study presents a comprehensive investigation of threshold voltage (VTH) instability in III-nitride heterostructure-based MIS-HEMTs, with a specific emphasis on the interfaces of the multi-heterostructures. Two widely studied amorphous materials, namely, Al2O3 and SiNx, have been extensively examined as primary gate insulators in GaN-based MIS-HEMTs. To efficiently remove native oxides from the (Al)GaN surface, a novel in situ high-temperature remote plasma pretreatment (RPP) technique has been developed. This technique involves sequential application of NH3/N2 plasmas on the (Al)GaN surface before depositing the gate insulators using plasma-enhanced atomic layer deposition. The remarkable RPP process has proven to be a highly effective method for revealing atomic steps on the GaN surface, irrespective of whether the surface has undergone oxidation or etching processes. To further enhance the interface quality and potentially reduce bulk traps in the gate insulator, optimization of deposition temperature and post-deposition annealing conditions have been explored. Additionally, an electron-blocking layer, such as SiON, is incorporated into the MIS-HEMTs to prevent electron injection into bulk traps within the insulator. Novel characterization techniques including constant-capacitance and isothermal-mode deep-level transient spectroscopy have also been developed to explore the failure mechanisms in MIS-HEMTs. These techniques allow for the differentiation between bulk traps in the GaN epitaxy and those present within the gate insulators. This in-depth physical understanding provides valuable insights into the sources of failure in GaN-based MIS-HEMTs.
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来源期刊
Applied physics reviews
Applied physics reviews PHYSICS, APPLIED-
CiteScore
22.50
自引率
2.00%
发文量
113
审稿时长
2 months
期刊介绍: Applied Physics Reviews (APR) is a journal featuring articles on critical topics in experimental or theoretical research in applied physics and applications of physics to other scientific and engineering branches. The publication includes two main types of articles: Original Research: These articles report on high-quality, novel research studies that are of significant interest to the applied physics community. Reviews: Review articles in APR can either be authoritative and comprehensive assessments of established areas of applied physics or short, timely reviews of recent advances in established fields or emerging areas of applied physics.
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