通过电子束蒸发器沉积和连续氨退火在多晶氮化镓层中掺杂 Ge

IF 2.5 4区 材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY Applied Physics A Pub Date : 2024-11-18 DOI:10.1007/s00339-024-08080-8
N. Yusop, S. N. Waheeda, E. A. Alias, M. E. A. Samsudin, M. Ikram Md Taib, N. Zainal
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引用次数: 0

摘要

我们研究了掺杂 2%、5% 和 10%不同 Ge 百分比的多晶氮化镓层的 Ge 掺杂对材料特性的影响。未掺杂的多晶氮化镓层的载流子浓度约为 6 × 1019 cm- 3,而掺杂 5%Ge 的多晶氮化镓层的载流子浓度最高可达约 1.1 × 1021 cm- 3。同时,在掺杂 5% Ge 的情况下,电子迁移率最低,为 98.6 cm2/Vs。这一结果与一些报道的载流子浓度高于 1020 cm- 3 的掺杂 Ge 的单晶 GaN 层相当。此外,多晶 GaN 层的表面会随着 Ge 百分比超过 5%而发生显著变化。特别是观察到 GaN 晶粒突起和 GaN 晶粒状棒。研究发现,Ge-N 相关化合物可在 GaN 晶粒状棒上形成。晶粒突起和晶粒样棒导致拉曼 E2 峰变宽,表明过量掺杂 Ge 会降低结晶特性。
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Ge-doping in polycrystalline GaN layer through electron beam evaporator deposition with successive ammonia annealing

We studied the impact of Ge-doping on material properties of polycrystalline GaN layers with different Ge percentages of 2%, 5% and 10%. The carrier concentration for the undoped polycrystalline GaN layer is ~ 6 × 1019 cm− 3, and the value increases up to ~ 1.1 × 1021 cm− 3 by the Ge-doping with 5% of Ge. Meanwhile, the electron mobility is the lowest at 98.6 cm2/Vs with 5% of Ge. The result is comparable to some reported Ge-doped single crystal GaN layers with the carrier concentration of above 1020 cm− 3. Additionally, the surface of the polycrystalline GaN layer changes significantly with the Ge percentage above 5%. In particular, GaN grain protrusions and GaN grain-like rods are observed. It is found that Ge-N related compounds can form on the GaN grain-like rods. The grain protrusions and grain-like rods lead to the broadening of the Raman E2 peak, indicating that the crystalline properties can be degraded by excessive Ge-doping.

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来源期刊
Applied Physics A
Applied Physics A 工程技术-材料科学:综合
CiteScore
4.80
自引率
7.40%
发文量
964
审稿时长
38 days
期刊介绍: Applied Physics A publishes experimental and theoretical investigations in applied physics as regular articles, rapid communications, and invited papers. The distinguished 30-member Board of Editors reflects the interdisciplinary approach of the journal and ensures the highest quality of peer review.
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