Composition and growth kinetics of ultrathin SiO2 films formed by oxidizing Si substrates in N2O

Abstract

Chemical composition and growth kinetics of ultrathin SiO₂ films formed by rapid thermal oxidizing Si substrates in N₂O have been studied. Both Auger electron spectroscopy (AES) and x‐ray photoelectron spectroscopy (XPS) revealed nitrogen pile‐up at the SiO₂/Si interface. Nitrogen concentration at the oxide surface and throughout the bulk was found to be low, similar to reoxidized/nitrided oxides. The nitrogen 1s electron binding energy determined by XPS in the oxide also indicated that these nitrogen atoms were bonded to Si. Electrical characterization showed that N₂O oxides exhibited less interface state generation under hot‐electron stressing as compared with the control oxide. Growth kinetics study showed that after an initial stage of fast growth, the oxidation rate was reduced significantly due to the formation of a nitrogen‐rich layer at the Si/SiO₂ interface which blocked oxidant diffusion to the interface.