Comparison of Hydrogen-Induced Oxide Charges Among GaN Metal-Oxide-Semiconductor Capacitors with Al2O3, HfO2, or Hf0.57Si0.43Ox Gate Dielectrics

The effect of hydrogen on GaN metal-oxide-semiconductor (MOS) capacitors with Al2O3, HfO2, or Hf0.57Si0.43O x gate dielectrics was studied using capacitance-voltage (C-V) measurements. Hydrogen exposure shifted all the C-V curves toward the negative bias direction, and the hydrogen response of the devices was reversible. When the hydrogen-containing ambient atmosphere was changed to N-2, the C-V characteristics were found to gradually revert to the initial values in N-2. Application of a reverse gate bias accelerated the reversion compared with that in the absence of a bias, indicating that hydrogen was absorbed into the dielectric (Hf0.57Si0.43O x ) as positive mobile charges. This result is consistent with the direction of the shift of the C-V curves; positively charged hydrogen absorbed into a dielectric can cause a flatband voltage shift. The hydrogen-induced shift of the C-V curves varied depending on the dielectric. MOS devices with HfO2-based high-k dielectrics were found to have approximately two to four times more incorporated charges than devices with Al2O3. Under the hypothesis that oxygen vacancies (V(O)s) trap hydrogen, the obtained results imply that the number of V(O)s in HfO2-based high-k dielectrics is much larger than that in Al2O3-based dielectrics.

Automated summary

The effect of hydrogen on GaN metal-oxide-semiconductor (MOS) capacitors with different gate dielectrics was studied using C-V measurements. Hydrogen exposure caused a negative shift in C-V curves, and the response was reversible. Application of a reverse gate bias accelerated the reversion, indicating hydrogen absorption into the dielectric as positive charges.