Growth and doping of silicon carbide with germanium: a review

IF 8.1 2区材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY

Critical Reviews in Solid State and Materials Sciences Pub Date : 2021-03-24 DOI:10.1080/10408436.2021.1896476

G. Ferro

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引用次数: 3

Abstract

Abstract This paper review the research works made so far in associating Ge isoelectronic element to SiC crystals, either by incorporating it inside SiC matrix or for assisting SiC epitaxial growth. The incorporation mechanism and level of incorporation of Ge in SiC during crystal growth with different techniques (sublimation, chemical vapor deposition, vapor-liquid-solid) are compared and discussed. Ge doping level as high as 2-3x1020 at.cm−3 can be reached without affecting SiC crystalline quality but generating some strain. Higher Ge incorporation levels up to few at% can be reached using farer-to-equilibrium conditions such as ion implantation or molecular beam epitaxy. The former allows retaining 4H-SiC polytype while the latter leads exclusively to defective 3C-SiC polytype. Adding Ge to SiC crystal growth was also used for promoting 3C-SiC heteroepitaxy on Si and on α-SiC substrates, the latter case being more successful. The reported modifications and improvements of SiC crystalline and electronic properties by the incorporation of Ge element are discussed in order to draw or clearer picture of SiC:Ge material. Based on such discussion, some short- and long-term perspectives are proposed

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锗掺杂碳化硅的生长与研究进展

摘要:本文综述了近年来国内外将Ge等电子元素与SiC晶体结合的研究进展，包括将Ge等电子元素掺入SiC基体或辅助SiC外延生长。比较和讨论了不同工艺(升华法、化学气相沉积法、气液固相沉积法)生长过程中Ge在SiC中的掺入机理和掺入水平。Ge掺杂水平高达2-3x1020 at。cm−3可以在不影响SiC晶体质量的情况下达到，但会产生一定的应变。使用离子注入或分子束外延等非平衡条件，可以达到较高的锗掺入水平，最高可达5%。前者允许保留4H-SiC多型，而后者只导致缺陷的3C-SiC多型。在SiC晶体生长中加入Ge也可以促进SiC -SiC在Si和α-SiC衬底上的异质外延，后者更为成功。本文讨论了近年来报道的掺入Ge元素对碳化硅晶体和电子性能的修饰和改善，以便更清晰地描绘出碳化硅:Ge材料。在此基础上，提出了短期和长期的展望

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来源期刊

Critical Reviews in Solid State and Materials Sciences 物理-材料科学：综合

CiteScore

22.10

自引率

2.80%

发文量

审稿时长

3 months

期刊介绍： Critical Reviews in Solid State and Materials Sciences covers a wide range of topics including solid state materials properties, processing, and applications. The journal provides insights into the latest developments and understandings in these areas, with an emphasis on new and emerging theoretical and experimental topics. It encompasses disciplines such as condensed matter physics, physical chemistry, materials science, and electrical, chemical, and mechanical engineering. Additionally, cross-disciplinary engineering and science specialties are included in the scope of the journal.