Study and characterization of GaN MOS capacitors: Planar vs trench topographies

Developing high quality GaN/dielectric interfaces is a fundamental step for manufacturing GaN vertical power transistors. In this paper, we quantitatively investigate the effect of planar etching treatment and trench formation on the performance of GaN-based MOS (metal oxide semiconductor) stacks. The results demonstrate that (i) blanket etching the GaN surface does not degrade the robustness of the deposited dielectric layer; (ii) the addition of the trench etch, while improving reproducibility, results in a decrease in the breakdown performance compared to the planar structures. (iii) For trench structures, the voltage for a 10 year lifetime is still above 20 V, indicating a good robustness. (iv) To review the trapping performance across the metal-dielectric-GaN stack, forward-reverse capacitance-voltage measurements with and without stress and photo-assistance are performed. Overall, as-grown planar capacitors devoid of prior etching steps show the lowest trapping, while trench capacitors have higher interface trapping and bulk trapping comparable to the blanket etched capacitors. (v) The nanostructure of the GaN/dielectric interface was characterized by high resolution scanning transmission electron microscopy. An increased roughness of 2-3 monolayers at the GaN surface was observed after blanket etching, which was correlated with the higher density of interface traps. The results presented in this paper give fundamental insight on how the etch and trench processing affects the trapping and robustness of trench-gate GaN-metal-oxide-semiconductor field effect transistors and provide guidance for the optimization of device performance. Published under an exclusive license by AIP Publishing.

Automated summary

This paper investigates the effect of planar etching treatment and trench formation on the performance of GaN-based MOS stacks. It is found that blanket etching the GaN surface does not degrade the robustness of the deposited dielectric layer. However, the addition of the trench etch improves reproducibility but results in a decrease in breakdown performance. Capacitance-voltage measurements reveal that as-grown planar capacitors have the lowest trapping, while trench capacitors have higher interface and bulk trapping. High resolution scanning transmission electron microscopy confirms an increased roughness at the GaN surface after blanket etching, correlated with higher density of interface traps.