Compositional and mechanistic aspects of ultrathin oxynitride film growth on Si(100)

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Rutgers Univ, Piscataway, United States [1 ]
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Microelectron Eng | / 1-4卷 / 29-32期
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Composition - Film growth - Interfaces (materials) - Nitriding - Oxidation - Rutherford backscattering spectroscopy - Semiconducting silicon - Ultrathin films;
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摘要
The oxynitridation of Si(100) by various sequences of NO, N2O and O2 exposures have been examined using high resolution medium energy ion scattering (MEIS) to determine accurate N and O concentrations and depth profiles. The results demonstrate that: 1) NO-produced oxynitride films have a higher concentration of N in them relative to N2O films, 2) N, once incorporated, significantly retards the rate of continued oxidation (or nitridation) in proportion to the N concentration, and 3) concurrent to nitridation near the interface, under certain conditions N2O exposure may remove N from a film in the overlayer beyond the near-interfacial (approximately 1.5 nm) region, whereas NO is much less effective at removing N.
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