The impact of nitrogen (N) concentration and distribution on the electrical and reliability properties of rapid‐thermally NO‐annealed oxides is studied. The use of NO‐annealing of thermally grown SiO2 provides an excellent way to isolate the effects of N, since this method allows for the incorporation of varying N profiles in the oxide without a simultaneous increase in dielectric thickness. Results show that the electrical properties of the dielectric under gate and substrate Fowler–Nordheim injection are highly sensitive to the N profile in the dielectric. While interface endurance (ΔDit) is seen to improve monotonically with increasing N concentrations for both +Vg and −Vg, the same is not observed for charge‐to‐breakdown (QBD) properties. It is found that although QBD improves with NO nitridation under +Vg, it shows a turnaround behavior under −Vg, i.e., for a 10‐s NO‐annealed oxide the QBD value is improved over control oxide while further nitridation is seen to degrade QBD under −Vg. The presence of bulk N and the nonuniform N distribution in the dielectric is responsible for this behavior.The impact of nitrogen (N) concentration and distribution on the electrical and reliability properties of rapid‐thermally NO‐annealed oxides is studied. The use of NO‐annealing of thermally grown SiO2 provides an excellent way to isolate the effects of N, since this method allows for the incorporation of varying N profiles in the oxide without a simultaneous increase in dielectric thickness. Results show that the electrical properties of the dielectric under gate and substrate Fowler–Nordheim injection are highly sensitive to the N profile in the dielectric. While interface endurance (ΔDit) is seen to improve monotonically with increasing N concentrations for both +Vg and −Vg, the same is not observed for charge‐to‐breakdown (QBD) properties. It is found that although QBD improves with NO nitridation under +Vg, it shows a turnaround behavior under −Vg, i.e., for a 10‐s NO‐annealed oxide the QBD value is improved over control oxide while further nitridation is seen to degrade QBD under −Vg. The presence of...