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Polycrystalline κ-Ga2O3 on Si(100) substrates with GZO buffer layers.

Yoshiaki Hirai1, Htet Su Wai2, Toshiyuki Kawaharamura2

  • 1Department of Electronics, Kyoto Institute of Technology Kyoto 606-8585 Japan m4621034@edu.kit.ac.jp.

RSC Advances
|March 27, 2026
PubMed
Summary
This summary is machine-generated.

This study demonstrates the successful growth of kappa-phase gallium oxide (κ-Ga2O3) thin films on silicon substrates using a Ga-doped ZnO buffer layer. This advancement offers a promising platform for developing novel piezoelectric semiconductor devices.

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Area of Science:

  • Materials Science
  • Semiconductor Physics
  • Thin Film Deposition

Background:

  • Kappa-phase gallium oxide (κ-Ga2O3) is a promising piezoelectric semiconductor for radio-frequency devices.
  • Heteroepitaxial growth on silicon is hindered by lattice mismatch and oxidation.
  • Developing κ-Ga2O3 on silicon is crucial for advanced electronic applications.

Purpose of the Study:

  • To demonstrate the growth of polycrystalline κ-Ga2O3 thin films on Si(100) substrates.
  • To investigate the role of Ga-doped ZnO (GZO) buffer layers in enabling this growth.
  • To characterize the structural properties and interfacial behavior of the deposited films.

Main Methods:

  • Mist chemical vapor deposition (mist CVD) for κ-Ga2O3 film deposition.
  • Utilizing Ga-doped ZnO (GZO) as a buffer layer on Si(100) substrates.
  • Structural analysis using X-ray diffraction (XRD), scanning electron microscopy (SEM), and transmission electron microscopy (TEM).

Main Results:

  • Successfully grown polycrystalline κ-Ga2O3 thin films on Si(100) using GZO buffer layers.
  • Films exhibit a c-axis oriented polycrystalline structure with isotropic properties.
  • Identified a ZnGa2O4 intermediate layer crucial for phase stabilization at the κ-Ga2O3/GZO interface.

Conclusions:

  • Polycrystalline κ-Ga2O3 films can be effectively grown on silicon substrates via mist CVD with GZO buffer layers.
  • The identified ZnGa2O4 interlayer is key to stabilizing the desired κ-phase.
  • This approach provides a viable pathway for fabricating κ-Ga2O3-based piezoelectric devices on silicon.