高温退火条件下 Czochralski-Grown (100) β-Ga2O3 中镁的外扩散和蚜虫扩散及其对侧向 MOSFET 器件的影响

IF 5.3 2区材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY

Advanced Electronic Materials Pub Date : 2024-10-22 DOI:10.1002/aelm.202400342

Ta-Shun Chou, Thi Thuy Vi Tran, Hartwin Peelaers, Kornelius Tetzner, Oliver Hilt, Jana Rehm, Saud Bin Anooz, Andreas Fiedler, Zbigniew Galazka, Martin Albrecht, Andreas Popp

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引用次数: 0

摘要

这项研究报告了镁在（100）β-Ga2O3 外延层和衬底内的外扩散和上坡扩散。在氧化环境下退火时，镁向(100)表面聚集，而浓度分布则随退火温度和持续时间的变化而变化。此外，在温度高于 800 °C 时，镁会从基底向外扩散到外延层，这种现象在薄膜生长过程中一直持续。替代-间隙-扩散（SID）机制被认为是前者的驱动机制，而后者则与移动镁间隙的扩散有关。镁的累积曲线可用于识别外延层与基底之间的界面。此外，在退火和未退火的外延β-Ga2O3 晶圆上制造的功率晶体管在器件性能上也存在显著差异。退火样品击穿电压升高的原因是镁扩散到了外延层靠近半绝缘衬底界面的前几纳米处，从而补偿了该区域的残留掺杂剂（供体）。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Out-Diffusion and Uphill-Diffusion of Mg in Czochralski-Grown (100) β-Ga2O3 Under High-Temperature Annealing and Its Influence on Lateral MOSFET Devices

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Out-Diffusion and Uphill-Diffusion of Mg in Czochralski-Grown (100) β-Ga2O3 Under High-Temperature Annealing and Its Influence on Lateral MOSFET Devices

In this work, the out-diffusion and uphill-diffusion of Mg inside (100) β-Ga₂O₃ epilayers and substrates are reported. The Mg accumulates toward the (100) surface upon annealing under an oxidizing environment, whereas the concentration profile changes with annealing temperatures and durations. Furthermore, the out-diffusion of Mg from the substrate into the epilayer is observed at temperatures above 800 °C, which continues during the film growth. The substitutional-interstitial-diffusion (SID) mechanism is suggested to be the driving mechanism for the former, and the latter is related to the diffusion of mobile Mg interstitials. The accumulation profile of Mg can be used to identify the interface between the epilayer and the substrate. Furthermore, significant differences in device performance are observed for power transistors fabricated on annealed and non-annealed epitaxial β-Ga₂O₃ wafers. Increased breakdown voltages of annealed samples are attributed to the Mg diffusion into the first few nanometers of the epitaxial layer close to the interface to the semi-insulating substrate, leading to compensation of residual dopants (donors) in that region.

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来源期刊

Advanced Electronic Materials NANOSCIENCE & NANOTECHNOLOGYMATERIALS SCIE-MATERIALS SCIENCE, MULTIDISCIPLINARY

CiteScore

11.00

自引率

3.20%

发文量

433

期刊介绍： Advanced Electronic Materials is an interdisciplinary forum for peer-reviewed, high-quality, high-impact research in the fields of materials science, physics, and engineering of electronic and magnetic materials. It includes research on physics and physical properties of electronic and magnetic materials, spintronics, electronics, device physics and engineering, micro- and nano-electromechanical systems, and organic electronics, in addition to fundamental research.