【Substrate Papers】Unveiling Defect Dynamics in Gallium Oxide: In-Situ TEM Insights under Ion Irradiation and Annealing

      Researchers from the North Carolina State University have published a dissertation titled " Unveiling Defect Dynamics in Gallium Oxide: In-Situ TEM Insights under Ion Irradiation and Annealing" in ACS Applied Materials & Interfaces.

Abstract

      Gallium oxide (Ga₂O₃) is distinguished in the electronics field for its ultrawide bandgap, high breakdown field, and transparency to visible and infrared light, making it highly attractive for sensor applications in harsh environments. This study investigates the evolution of defects in Ga₂O₃ under ion irradiation, annealing, and their combined effects, with a unique focus on in situ transmission electron microscopy (TEM) observations. We examined three electron-transparent Ga₂O₃ lamellas (samples A, B, and C) under distinct conditions: Sample A was subjected to Kr²⁺ ion irradiation up to 15.4 displacements per atom (dpa) at room temperature; Sample B was annealed in 100 °C increments up to 500 °C; Sample C underwent simultaneous annealing at 500 °C and ion irradiation. TEM provided detailed, real-time characterization throughout the experiments, offering unprecedented insights into defect dynamics. Our findings reveal the formation and growth of small black defects (SBDs), defect clusters, and dense dislocation networks under irradiation. The crystal structure remained stable during gradual heating, but combined irradiation and temperature effects accelerated defect formation and evolution. Notably, a phase transition from β to γ was observed during the irradiation-only experiment. The in situ and ex-situ TEM observations provide a novel and impactful perspective on the behavior of Ga₂O₃, contributing significantly to the understanding of its properties under extreme conditions. These insights pave the way for the development of more resilient Ga₂O₃ electronic devices, enhancing their performance and reliability in demanding applications.

DOI：

https://doi.org/10.1021/acsami.5c11500