Improvement of NBTI and electrical characteristics by ozone pre-treatment and PBTI issues in HfAlO(N) high-k gate dielectrics

For the first time, we have investigated the effect of ozone (O/sub 3/) pre-treatment on the bias temperature instability (BTI) characteristics of high-k gate dielectrics. We found that O/sub 3/ pre-treatment improved NBTI and the electrical characteristics of HfAlON gate dielectric. We suggest that O/sub 3/ pre-treatment effectively suppresses the incorporation of the impurities (such as nitrogen (N), hydrogen (H) and water related species), resulting in the improvement of NBTI characteristics (-2.32 V operating voltage for 10 years lifetime). For the PBTI characteristics, the high-k gate dielectric with poly-Si gate electrode was severely degraded. We suggest that dopants (such as arsenic (As) and phosphorus (P)) in the gate electrode of nMOSFETs diffuse into the gate dielectrics, causing the severe degradation of PBTI characteristics (/spl sim/1.1 V operating voltage for 10 years lifetime). We believe that the optimization in the high-k gate stack can improve the PBTI characteristics by suppressing the dopants incorporation.