1Guzman-Verri, G. G.; Lew Van Voon, L. C. Electronic structure of silicon-based nanostructures. Phys. Rev. B 2007, 76,075131.
2Lebegue, S.; Eriksson, O. Electronic structure of two?dimensional crystals from ab initio theory. Phys. Rev. B 2009, 79, 115409.
3Cahangirov, S.; Topsakal, M.; Akttirk, E.; Sahin, H.; Ciraci, S. Two- and one-dimensional honeycomb structures of silicon and germanium. Phys. Rev. Lett. 2009, 102, 236804.
4Houssa, M.; Pourtois, G.; Afanasev, V. V.; Stesmans, A. Electronic properties of two-dimensional hexagonal germanium. Appl. Phys. Lett. 2010,96,082111.
5Leandri, C.; Oughaddou, H.; Aufray, B.; Gay, l M.; Le Lay, G.; Ranguis, A.; Garreau, Y. Growth of Si nanostructures on Ag(OOI). Surf Sci. 2007, 601, 262-267.
6Leandri, C.; Le Lay, G.; Aufray, B.; Girardeaux, C.; Avila, J.; Davila, M. E.; Asensio, M. C.; Ottaviani, C.; Cricenti, A Self-aligned silicon quantum wires on Ag(110). Surf Sci. 2005,574, L9-L15.
7Le Lay, G.; Aufray, B.; Leandri, C.; Oughaddou, H.; Biberian, l-P.; De Padova, P.; Davila, M. E.; Ealet, B.; Kara, A. Physics and chemistry of silicene nano-ribbons. Appl. Surf Sci. 2009,256, 524-529.
8Kara, A; Leandri, C.; Davila, M. E.; De Padova, P.; Ealet, B.; Oughaddou, H.; Aufray, B.; Le Lay, G. Physics of silicene stripes. J. Supercond. Nov. Magn. 2009,22,259-263.
9De Padova, P.; Leandri, C.; Vizzini, S.; Quaresirna, C.; Perfetti, P.; Olivieri, B.; Oughaddou, H.; Aufray, B.; Le Lay, G. Burning match oxidation process of silicon nanowires screened at the atomic scale. Nano Lett. 2008, 8, 2299-2304.
10Aufray, B.; Kara, A.; Vizzini, S.; Oughaddou, H.; Leandri, C.; Ealet, B.; Le Lay, G. Graphene-Iike silicon nanoribbons on Ag(l10): A possible formation of silicone. Appl. Phys. Lett. 2010,96,183102.
同被引文献25
1Takeda K, Shiraishi K. Theoretical possibility of stage orruga- tion in Si and Ge analogs of graphite [J]. Physical Review B, 1994,50(20) : 14916.
2Novoselov K S, Geim A K, Morozov S V, et al. Electric field ef- fect in atomically thin carbon films [J]. Science, 2004, 306 (5696) : 666-669.
3Xu M, Liang T, Shi M, et al. Graphene-like two-di.mensional materials[J]. Chemical Reviews,2013,113(5) :3766-3798.
4Li Z, Zhu H, Wang K, et al. Ethanol flame synthesis of highly transparent carbon thin films [J]. Carbon, 2011, 49 (1) : 237-241.
5Guzma'n-Verri G G, Lew Yan Voon L C. Electronic structure of silicon-based nanostruetures [J]. Physical Review B, 2007, 76(7) :075131.
6Le Lay G, Aufray B, Le'andri C, et al. Physics and chemistry of silicene nano-ribbons [J]. Applied Surface Science, 2009,256 (2) :524-529.
7De Padova P, Quaresima C, Ottaviani C, et al. Evidence of gra- phene-like electronic signature in silicene nanoribbons[J]. Ap- plied Physics Letters, 201 O, 96(26) : 261905.
8Vogt P, De Padova P, Quaresima C, et al. Silicene: compelling experimental evidence for graphene like two-dimensional sili- con[J ]. Physics Review Letters, 2012, 108(15) : 155501.
9Balandin A A, Ghosh S, Bao W, et al. Superior thermal conduc- tivity of single-layer graphene [ J ]. Nano Letters, 2008, g (3) : 902-907.
10Kim K S, Zhao Y, Jang H, et al. Large-scale pattern growth of graphene films for stretchable transparent electrodes [J]. Na- ture, 2009,457 (7230) : 706-710.