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Density functional theory study of the structural and electronic properties of amorphous silicon nitrides: Si3N4-x:H
Hintzsche, L.E.; Fang, C.M.; Watts, T.; Marsman, M.; Jordan, G.; Lamers, M.W.P.E.; Weeber, A.W.; Kresse, G.
Gepubliceerd door: Publicatie datum:
ECN Zonne-energie 2-4-2013
ECN publicatienummer: Publicatie type:
ECN-W--13-011 Artikel wetenschap tijdschrift
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Gepubliceerd in: Physical Review B (), , 2012, Vol.Vol. 86, issue 23, p.235204-.

We present ab initio density functional theory studies for stoichiometric as well as nonstoichiometric amorphous silicon nitride, varying the stoichiometry between Si3N4:5 and Si3N3. Stoichiometric amorphous Si3N4 contains the same local structure as crystalline Si3N4, with Si being 4-fold coordinated and N being 3-fold coordinated. Only few Si-Si and N-N bonds and other defects are found in stoichiometric silicon nitride, and the electronic properties are very similar to the crystalline bulk. In over-stoichiometric Si3N4+x, the additional N results in N-N bonds, whereas in under-stoichiometric Si3N4??x the number of homopolar Si-Si bonds increases with decreasing N content. Analysis of the structure factor and the local coordination of the Si atoms indicates a slight tendency towards Si clustering, although at the investigated stoichiometries phase separation is not observed. In the electronic properties, the conduction band minimum is dominated by Si states, whereas the valence band maximum is dominated by lone pair N states. Towards Si rich samples, the character of the valence band maximum becomes dominated by Si states corresponding to Si-Si bonding linear combinations. Adding small amounts of hydrogen, as typically used in passivating layers of photovoltaic devices, has essentially no impact on the overall structural and electronic properties.

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