Formation of a Graphene-Like SiN Layer on the Surface Si(111)

Autor: Timur V. Malin, A. S. Kozhukhov, Ildikó Cora, E. V. Fedosenko, K. S. Zhuravlev, Béla Pécz, Yu. G. Galitsyn, Vladimir G. Mansurov, S. A. Teys
Rok vydání: 2018
Předmět:
Zdroj: Semiconductors. 52:1511-1517
ISSN: 1090-6479
1063-7826
DOI: 10.1134/s1063782618120151
Popis: 00-The kinetics of the formation and thermal decomposition of a two-dimensional SiN-(8 × 8) nitride layer on a Si(111) surface is studied. The SiN-(8 × 8) structure is a metastable intermediate phase formed during the nitridation of silicon before the formation of a stable amorphous Si3N4 phase. Studying the SiN-(8 × 8) structure by scanning tunneling microscopy shows its complex structure: it consists of an adsorption (8/3 × 8/3) phase, with the lateral period 10.2 A, and a honeycomb structure with a ~6 A side of a hexagon that is turned 30° with respect the adsorption phase. The band gap of the SiN-(8 × 8) phase is measured and found to be ~2.8 eV, which is smaller compared to the band gap of the β-Si3N4 crystal phase 5.3 eV. The interplanar spacings in the (AlN3)/(SiN)2 structure on the Si(111) surface are measured. The spacings are 3.3 and 2.86 A in SiN and AlN, respectively. Such interplanar spacings are indicative of weak van der Waals interaction between the layers. A model of the SiN-(8 × 8) structure as a flat graphene-like layer is suggested. The model is consistent with the diffraction and microscopy data.
Databáze: OpenAIRE
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