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2013

286. Gigahertz Multi-Transistor Graphene Integrated Circuits. R. Sordan, A. C. Ferrari; Electron Devices Meeting (IEDM), IEEE International (2013)

285. Evanescent-wave coupled right angled buried waveguide: Applications in carbon nanotube mode-locking. R. Mary, G. Brown, S. J. Beecher, R. R. Thomson, D. Popa, Z. Sun, F. Torrisi, T. Hasan, S. Milana, F. Bonaccorso, A. C. Ferrari, A. K. Kar ; Appl. Phys. Lett. 103, 221117 (2013).

284. Optical trapping and manipulation of nanostructures. O. M. Maragò, P. H. Jones, P. G. Gucciardi, G. Volpe, A. C. Ferrari ; Nature Nanotechnology 8, 807 (2013)

283. Ultrafast and widely tuneable vertical-external-cavity surface-emitting laser, mode-locked by a graphene-integrated distributed Bragg reflector. C.A. Zaugg, Z. Sun, V. J. Wittwer, D. Popa, S. Milana, T. Kulmala, R. S. Sundaram, M. Mangold, O. D. Sieber, M. Golling, Y. Lee, J. H. Ahn, A. C. Ferrari, U. Keller ; arxiv:1310.2132 (2013).

282. Nanotubes Complexed with DNA and Proteins for Resistive-Pulse Sensing. J. Sha, T. Hasan, S. Milana, C. Bertulli, N. A. W. Bell, G. Privitera, Z. Ni, Y. Chen, F. Bonaccorso, A. C. Ferrari, U. F. Keyser, Y. Y. S. Huang; ACSNano 7, 8857 (2013).

281. Nanotubes Complexed with DNA and Proteins for Resistive-Pulse Sensing. J. Sha, T. Hasan, S. Milana, C. Bertulli, N. A. W. Bell, Gi. Privitera, Z. Ni, Y. Chen, F. Bonaccorso, A. C. Ferrari, U. F Keyser, Y. Y. S. Huang ; ACS Nano, doi: 10.1021/nn403323k (2013).

280. Mid-infrared Raman-soliton continuum pumped by a nanotube-mode-locked sub-picosecond Tm-doped MOPFA. M. Zhang, E. J. R. Kelleher, T. H. Runcorn, V. M. Mashinsky, O. I. Medvedkov, E. M. Dianov, D. Popa, S. Milana, T. Hasan, Z. Sun, F. Bonaccorso, Z. Jiang, E. Flahaut, B. H. Chapman, A. C. Ferrari, S. V. Popov, J. R. Taylor; Optics Express 21, 23261 (2013).

279. Mode-locking Using Right-angle Waveguide, Based Nanotube Saturable Absorber. G. Brown, R.R. Thomson, S.J. Beecher, R. Mary, D. Popa, Z. Sun, F. Torrisi, T. Hasan, S. Milana, F. Bonaccorso, A.C. Ferrari, A.K. Kar; CLEO PR&OECC/PS ,WA4-4 (2013).

278. Electron-beam-induced direct etching of graphene. C. Thiele, A. Felten, T. J. Echtermeyer, A. C. Ferrari, C. Casiraghi, H. V. Löhneysen, R. Krupke; Carbon 64, 84 (2013) .

277. 2 to 3 µm Raman-soliton continuum enabled by a nanotube mode-locked Tm-doped MOPFA. M. Zhang, E. J. R. Kelleher, T. H. Runcorn, V. M. Mashinsky, O. I. Medvedkov, E. M. Dianov, Z. Sun, D. Popa, T. Hasan, A. C. Ferrari, B. H. Chapman, S. V. Popov, J. R. Taylor; CLEO: Science and Innovations (CLEO: S and I), CW1M.5, (2013).

276. Wavelength Tunable Graphene Modelocked VECSEL C. A. Zaugg, Z. Sun, D. Popa, S. Milana, T. Kulmala, R. S. Sundaram, V. J. Wittwer, M. Mangold, O. D. Sieber, M. Golling, Y. Lee, J.-H. Ahn, A. C. Ferrari, U. Keller; CLEO: Science and Innovations (CLEO: S and I), CW1G.4, (2013).

275. Ultrafast collinear scattering and carrier multiplication in graphene. D. Brida, A. Tomadin, C. Manzoni, Y. J. Kim, A. Lombardo, S. Milana, R. R. Nair, K. S. Novoselov, A. C. Ferrari, G. Cerullo, M. Polini; Nature Communications, 4, 1987 (2013) .

274. Measurement of Filling-Factor-Dependent Magnetophonon Resonances in Graphene Using Raman Spectroscopy. Y. Kim, J. M. Poumirol, A. Lombardo, N. G. Kalugin, T. Georgiou, Y. J. Kim, K. S. Novoselov, A. C. Ferrari, J. Kono, O. Kashuba, V. I. Fal'ko, D. Smirnov; Phys. Rev. Lett., 110, 227402 (2013),(Supplementary material)

273. Non-equilibrium dynamics of photo-excited electrons in graphene: collinear scattering, Auger processes, and the impact of screening. A. Tomadin, D. Brida, G. Cerullo, A. C. Ferrari, M. Polini; Phys. Rev. B, 88, 035430 (2013).

272. Raman scattering efficiency of graphene. P. Klar, E. Lidorikis, A. Eckmann, I. A. Verzhbitskiy, A. C. Ferrari, C. Casiraghi; Phys. Rev. B, 87, 205435 (2013).

271.Controlling Sub-nm Gaps in Plasmonic Dimers using Graphene. J. Mertens, A. L. Eiden, D. O. Sigle, A. Lombardo, Z. Sun, R. S. Sundaram, A. Colli, C. Tserkezis, J. Aizpurua, S. Milana, A. C. Ferrari, J. J. Baumberg; Nano Lett. 13, 5033 (2013).

270. Sorting Nanoparticles By Centrifugal Fields in Clean Media. F. Bonaccorso, M. Zerbetto, A. C. Ferrari, V. Amendola; J. Phys. Chem. C, 117, 13217 (2013).

269. Raman spectroscopy as a versatile tool for studying the properties of graphene. A. C. Ferrari, D. M. Basko; Nature Nanotech. 8, 235 (2013) (Supplementary Information).

268. Electroluminescence in Single Layer MoS2. R. S. Sundaram, M. Engel, A. Lombardo, R. Krupke, A. C. Ferrari, Ph. Avouris, M. Steiner; Nano Lett., 13, 1416 (2013).

267. Multiwall Nanotubes, Multilayers, and Hybrid Nanostructures: New Frontiers for Technology and Raman Spectroscopy, F. Bonaccorso, P.H. Tan, A.C. Ferrari ; ACS Nano, 7, 1838 (2013).

266. 1.5 GHz Pulse Generation From a Monolithic Waveguide Laser With a Graphene-Film Saturable Output Coupler. R. Mary, S. J. Beecher, G. Brown, F. Torrisi, S. Milana, D.Popa, T. Hasan, Z. Sun, E. Lidorikis, S. Ohara, A. C. Ferrari, A. K. Kar; Optics Express 21, 7943 (2013).

265. Raman spectroscopy of shear and layer breathing modes in multilayer MoS2, X. Zhang, W. P. Han, J. B. Wu, S. Milana, Y. Lu, Q. Q. Li, A. C. Ferrari, P. H. Tan; Phys. Rev. B, 87, 115413 (2013).

264. 2μm Solid-State Laser Mode-locked By Single-Layer Graphene. A. A. Lagatsky, Z. Sun, T. S. Kulmala, R. S. Sundaram, S. Milana, F. Torrisi, O. L. Antipov, Y. Lee, J. H. Ahn, C. T. A. Brown, W. Sibbett, A.C. Ferrari ; Appl. Phys. Lett. 102, 013113 (2013) .

263. CW-pumped short pulsed 1.12 μm Raman laser using carbon nanotubes. C. E. S. Castellani, E. J. R. Kelleher, D. Popa, T. Hasan, Z. Sun, A. C. Ferrari, S. V. Popov, J. R. Taylor; Laser Phys. Lett. 10, 015101 (2013) .

 

 

 


 

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