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Colloquium - R. Moeller
28/04/2011 15:00 (Seminarni mistnost budova A) »more info

Colloquium - A. Heinrich
21/03/2011 15:00 (Seminarni mistnost budova A) »more info

Seminar - Petr Klapetek
14/02/2011 14:00 (Zasedaci mistnost budova B) »more info

Seminar - Guy Le Lay
11/02/2011 11:00 (Seminarni mistnost budova A) »more info

Our paper published in PRL Jan 2011
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Seminar András Berkó
15/11/2010 15:00 (Seminarni mistnost budova A) »more info

Seminar Martin Svec
14/11/2010 15:00 (Seminarni mistnost budova A) »more info

2nd QPlus workshop 8/10/10
2nd International QPlus Workshop 8.10.2010 »more info

Seminar Y. J. Dappe 25/5/10
25/5/2010 10:00 (Seminarni mistnost budova A) »more info

Seminar J. Repp 13/4/2010
14/3/2010 15:00 (Seminarni mistnost budova A) »more info

Seminar T. Novotny 2/3/2010
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Seminar R. Martonak 23/2/10
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4/2/10 Colloquium S. Lindsay
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18/1/10 Our work highlighted on Nanotech.org website.
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30/12/09 Our paper about atomic contrast of KPFM published in PRL
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Seminar J.P. Lewis 9/12/09 14:00
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Seminar P. Kocan 25/11/09 15:00
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14.-15.10. 2009 workshop "Simultaneous STM/AFM measurements using tuning fork based sensors"
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Seminar - Guy Le Lay

Silicene discovery: from massively parallel nano-ribbons to two-dimensional sheets
Guy Le Lay
CINaM-CNRS, Campus de Luminy, Case 913, F-13288 Marseille Cedex 09, France

Silicene [1], the alternative of graphene for silicon, has been theoretically conjectured recently [2]. Its synthesis has just been reported [3]: silicon deposition onto Ag(110) surfaces reveals the formation of silicon nano-ribbons (NRs) [4], in a massively parallel arrangement along the [-110] direction. Their atomic geometry was derived by high-resolution STM images showing a honeycomb arrangement, i.e., a silicene-like structure, further supported by theoretical calculations [5,6].
These one-dimensional (1D) silicene NR’s, showing quantized/edge states in STS imaging [7], self-assemble by lateral compaction to form a grating with a pitch of ~2 nm covering the entire substrate surface [8]. The band dispersion along the NRs direction reveals, as for graphene, massless Dirac fermions resulting from the 1D projection of π and π* Dirac cones [9].
This points to sp2 hybridization, which is further confirmed
1)by the incidence angle dependence of Electron Energy Loss Spectra near the silicon K absorption edge [10]: the measured anisotropy is very similar to that found for the carbon K edge of HOPG graphite [11],
2)by the strong resistance toward oxidation [12].
Recently, two-dimensional silicene-like sheets have been also obtained in Marseille upon Si deposition onto Ag(111) [13].
Finally, the implications of these novel results for new physics and applications will be discussed.

[1] G.. G.. Guzman-Verri and L. C. Lew Yan Voon, Phys. Rev. B 76 (2007) 75131
[2] S. B. Fagan, et al., Phys. Rev. B, 61, (2000) 9994; S. Lebègue and O. Eriksson, Phys. Rev. B 79
(2009) 115409 ; S. Cahangirov et al., Phys. Rev. Lett. 102 (2009) 236804
[3] B. Aufray et al., Appl. Phys. Lett., 96 (2010) 183102
[4] C. Léandri, et al., Surface Sci. 574, (2005) L9
[5] A. Kara et al., J. of Phys-Cond. Mat. 22, (2010) 045004 ; A. Kara et al., J. Supercond. Novel Magn.
22 (2009) 259
[6] G.. Le Lay et al., Appl. Surf. Sci., 256 (2009) 524
[7] F. Ronci et al., Phys. Status Solidi C7, 2716 (2010).
[8] H. Sahaf et al., Appl. Phys. Lett. 90 (2007) 263110
[9] P. De Padova et al., Appl. Phys. Lett., 96 (2010) 261905
[10] P. De Padova et al., submitted
[11] R. Gunnella et al., Phys. Rev. B 52 (1995) 17091
[12] P. De Padova et al., submitted
[13] P. Vogt et al., in preparation