Multilayered silicene: the bottom-up approach for a weakly relaxed Si(111) with Dirac surface states

Multilayered silicene: the bottom-up approach for a weakly relaxed Si(111) with Dirac surface states

Combining first principles investigations and scanning tunneling microscopy, we identify that the presumable van der Waals packed multilayered silicene sheets spontaneously transform into a diamond-structure bulk Si film due to strong interlayer couplings. In contrast to drastic surface reconstructi...

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Veröffentlicht in:Nanoscale 2015-10, Vol.7 (38), p.15880-15885
Hauptverfasser: Fu, Huixia, Chen, Lan, Chen, Jian, Qiu, Jinglan, Ding, Zijing, Zhang, Jin, Wu, Kehui, Li, Hui, Meng, Sheng
Format: Artikel
Sprache:eng
Schlagworte:
Diamond films
Diamonds
Dispersions
Honeycomb
Nanostructure
Reconstruction
Scanning tunneling microscopy
Silver
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Zusammenfassung:Combining first principles investigations and scanning tunneling microscopy, we identify that the presumable van der Waals packed multilayered silicene sheets spontaneously transform into a diamond-structure bulk Si film due to strong interlayer couplings. In contrast to drastic surface reconstruction on conventional Si(111), multilayered silicene prepared by bottom-up epitaxy on Ag(111) exhibits a nearly ideal flat surface with only weak buckling. Without invoking Ag surfactants, √3 ×√3 honeycomb patterns emerge thanks to dynamic fluctuation of mirror-symmetric rhombic phases, similar to monolayered silicene [Chen et al., Phys. Rev. Lett., 2013, 110, 085504]. The weak relaxation enables novel surface states with a Dirac linear dispersion.
ISSN:2040-3364
2040-3372
DOI:10.1039/c5nr04548g