n 型氮化镓上基于 Re-Al-Ni-Au 的欧姆触点表面微观结构的演变

Amit P. Shah, Bhagyashree A. Chalke, Jayesh B. Parmar, Manish B. Ghag, Arnab Bhattacharya
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引用次数: 0

摘要

最近,人们对基于铼(Re)的氮化镓欧姆触点进行了研究,发现其在低退火温度下电阻率低、表面形态光滑、边缘清晰。在这项工作中,我们讨论了 n-GaN 上 Re-Al-Ni-Au 欧姆触点的表面微结构演变与 Re 层厚度和退火温度的函数关系。在所有 Re 层厚度下,铝和镍都会偏析成团块,并随着退火温度的升高而增大。这些团聚体被 Al-Au 膜包围。它们与下面的 Re 层一起形成了 Re-Al-Ni、Al6Re、AlAu2 和 Al2Au5 等不同的结晶相。这与金属-半导体界面上形成的 Re-N 相一起,导致了 n-GaN 上的低电阻率欧姆接触。研究接触微观结构的演变是了解基于 Re 的欧姆接触系统行为的重要一步。
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Evolution of surface microstructure of Re-Al-Ni-Au based ohmic contacts on n-type GaN

Recently, rhenium (Re) based ohmic contacts to GaN have been studied for their low resistivity, smooth surface morphology, and sharp edge acuity at low annealing temperatures. In this work, we discuss the evolution of surface microstructures for Re-Al-Ni-Au ohmic contacts on n-GaN as a function of Re layer thickness and annealing temperature. For all Re thicknesses, the Al and Ni segregate into agglomerates that increase in size with increasing annealing temperature. These agglomerates are surrounded by Al-Au films. Along with the underlying Re layer, they form different crystallographic phases of Re-Al-Ni, Al6Re, AlAu2, and Al2Au5. This, along with the formation of Re-N phases at the metal-semiconductor interface leads to low resistivity ohmic contacts on n-GaN. Investigating the evolution of the contact microstructure is an important step in understanding the behavior of the Re-based ohmic contact system.

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