APL Materials (Sep 2021)

Strong effect of scandium source purity on chemical and electronic properties of epitaxial ScxAl1−xN/GaN heterostructures

  • Joseph Casamento,
  • Hyunjea Lee,
  • Celesta S. Chang,
  • Matthew F. Besser,
  • Takuya Maeda,
  • David A. Muller,
  • Huili (Grace) Xing,
  • Debdeep Jena

DOI
https://doi.org/10.1063/5.0054522
Journal volume & issue
Vol. 9, no. 9
pp. 091106 – 091106-9

Abstract

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Epitaxial multilayer heterostructures of ScxAl1−xN/GaN with Sc contents x = 0.11–0.45 are found to exhibit significant differences in structural quality, chemical impurity levels, and electronic properties depending on the starting Sc source impurity levels. A higher purity source leads to a 2–3 orders of magnitude reduction in the carbon, oxygen, and fluorine unintentional doping densities in MBE-grown ScxAl1−xN/GaN multilayers. Electrical measurements of ScxAl1−xN/n+GaN single heterostructure barriers show a 5–7 orders of magnitude reduction in the electrical leakage for films grown with a higher purity Sc source at most Sc contents. The measured chemical and electrical properties of epitaxial ScxAl1−xN highlight the importance of the starting Sc source material purity for epitaxial device applications that need these highly piezoelectric and/or ferroelectric transition-metal nitride alloys.