Ion implantation technology in SiC for high-voltage/high-temperature devices

2016 16th International Workshop on Junction Technology (IWJT) Pub Date : 2016-05-09 DOI:10.1109/IWJT.2016.7486673
T. Kimoto, K. Kawahara, N. Kaji, H. Fujihara, J. Suda
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引用次数: 9

Abstract

Electrical activation of implanted dopants and defect generation in SiC have been investigated. A nearly perfect (> 95%) electrical activation can be obtained including the implant tail region after annealing at 1650-1700 °C. The majority of point defects generated in implanted SiC can remarkably be reduced by thermal oxidation. The high activation ratio of implanted Al acceptors is a key factor for fabricating effective junction termination structures in high-voltage SiC devices. Recent high-quality semi-insulating SiC wafers offer the opportunity of high-temperature SiC integrated devices, which can be fabricated by only ion implantation without an epitaxial growth process.
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高压/高温器件SiC离子注入技术
研究了SiC中掺杂剂的电激活和缺陷的产生。在1650-1700℃退火后,可以获得包括植入体尾部区域在内的几乎完美(> 95%)的电激活。热氧化可以显著地减少注入SiC中产生的大部分点缺陷。植入Al受体的高活化率是在高压SiC器件中制造有效结端结构的关键因素。近年来,高质量的半绝缘SiC晶圆为高温SiC集成器件提供了机会,这种器件可以通过离子注入而无需外延生长过程来制造。
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来源期刊
2016 16th International Workshop on Junction Technology (IWJT)
2016 16th International Workshop on Junction Technology (IWJT)
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