Effect of passivation layers in bilayer with ZrO2 on Ge substrate for improved thermal stability.

In this study, the effects of Al₂O₃ and Y₂O₃ passivation layers on Ge substrates are investigated to enhance the thermal stability of Ge-based devices. Using X-ray photoelectron spectroscopy, we analyze the growth characteristics and chemical composition of Al₂O₃, Y₂O₃, and ZrO₂ on Ge. The changes in the crystallinity of ZrO₂ on different substrates of Ge, Al₂O₃/Ge, and Y₂O₃/Ge configurations are observed via X-ray diffraction. Material properties, including capacitance, flat band voltage shift (ΔV_FB), oxide charge trap (N_ot), interface defect density (D_it), and leakage current, are analyzed using the metal–oxide–semiconductor capacitor, with a particular focus on their electrical characteristics. Additionally, we investigate whether the passivation mechanisms of each material are more suitable for enhancing thermal stability. Overall, this study provides insight into the role of passivation layers in improving the interface and thermal stability of Ge-based devices, offering valuable contributions to the advancement of semiconductor technology. [ABSTRACT FROM AUTHOR]