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| Publications [#64701] of Hisham Z. Massoud
Papers Published
- Lucovsky, G. and Yang, H. and Massoud, H.Z., Heterointerface dipoles: Applications to (a) Si-SiO2, (b) nitrided Si-N-SiO2, and (c) SiC-SiO2 interfaces,
J. Vac. Sci. Technol. B, Microelectron. Nanometer Struct. (USA), vol. 16 no. 4
(1998),
pp. 2191 - 8, Salt Lake City, UT, USA [1.590147]
(last updated on 2007/04/15)
Abstract:
This article identifies procedures to calculate charge-transfer dipoles at semiconductor-dielectric interfaces, focusing primarily on the Si-SiO2 system. Since SiO2 is more polar than Si, there is a transfer of electrons from Si to SiO2 to balance the difference in chemical potentials creating a dipole localized at the semiconductor-dielectric interface. This dipole increases the conduction-band offset energy difference between Si and SiO2, and therefore, has important effects on interface electrical and optical properties. Empirical chemistry and ab initio methods have been applied to molecular clusters which emulate the interface bonding, and have been used to calculate interfacial charge transfer at (i) abrupt Si-SiO2 interfaces and (ii) nitrided Si-N-SiO2 interfaces. Additional calculations have applied to determine the average dipoles at Si-SiO2 interfaces with suboxide bonding in excess of the monolayer level required to form an ideal interface. The calculations support experimental data that indicate that the effective conduction-band offset energies at nitrided Si-N-SiO2 interfaces and at interfaces with minimized suboxide bonding are essentially the same. Finally, the calculations have been extended to SiC-SiO2 interfaces to illustrate the effects of changing from a homopolar to a more ionic or heteropolar semiconductor
Keywords:
ab initio calculations;charge exchange;chemical potential;cluster approximation;conduction bands;interface states;nitridation;semiconductor-insulator boundaries;silicon;silicon compounds;
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