We investigate the incorporation of group-III ( B and Al), group-IV ( C and Ge), and group-V ( N and P) impurities in Si nanocrystallites. The structural features and electronic properties of doped Si nanocrystallites, which are faceted or spherical-like, are studied by means of an ab initio pseudopotential method including spin polarization. Jahn-Teller distortions occur in the neighborhood of the impurity sites and the bond lengths show a dependence on size and shape of the nanocrystallites. We find that the acceptor ( group-III) and donor ( group-V) levels become deep as the nanocrystallites become small. The energy difference between the spin-up and spin-down levels of group-III and group-V impurities decreases as the size of the Si nanocrystallite increases and tends to the value calculated for Si bulk. Doping with carbon introduces an impurity-related level in the energy gap of the Si nanocrystallites.
Structural Features and Electronic Properties of Group-III, Group-IV and Group-V-doped Si Nanocrystallites / L. E., Ramos; Degoli, Elena; G., Cantele; Ossicini, Stefano; D., Ninno; J., Furthmüller; F., Bechstedt. - In: JOURNAL OF PHYSICS. CONDENSED MATTER. - ISSN 0953-8984. - STAMPA. - 19:46(2007), pp. 466211-466222. [10.1088/0953-8984/19/46/466211]
Structural Features and Electronic Properties of Group-III, Group-IV and Group-V-doped Si Nanocrystallites
DEGOLI, Elena;OSSICINI, Stefano;
2007
Abstract
We investigate the incorporation of group-III ( B and Al), group-IV ( C and Ge), and group-V ( N and P) impurities in Si nanocrystallites. The structural features and electronic properties of doped Si nanocrystallites, which are faceted or spherical-like, are studied by means of an ab initio pseudopotential method including spin polarization. Jahn-Teller distortions occur in the neighborhood of the impurity sites and the bond lengths show a dependence on size and shape of the nanocrystallites. We find that the acceptor ( group-III) and donor ( group-V) levels become deep as the nanocrystallites become small. The energy difference between the spin-up and spin-down levels of group-III and group-V impurities decreases as the size of the Si nanocrystallite increases and tends to the value calculated for Si bulk. Doping with carbon introduces an impurity-related level in the energy gap of the Si nanocrystallites.
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