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Cambridge Graphene Centre

Research Centre on Graphene, Layered Crystals and Hybrid Nanomaterials

Studying at Cambridge

 

2014

 

310. NIR silicon Schottky photodetector: From metal to graphene M.Casalino, G. Coppola, L.Sirleto,M.Iodice,M.Gioffre,I.Rendina,U.Sassi,A.Lombardo,S.Milana, R.S.Sundaram, A.C.Ferrari IEEE Xplore, DOI: 10.1109/Fotonica.2014.6843837 ,(2014).

309. Silicon photodetectors based on internal photoemission effect: The challenge of detecting near infrared light. M.Casalino, G. Coppola, M.Iodice,I.Rendina,U.Sassi,A.Lombardo,S.Milana, R.S.Sundaram, A.C.Ferrari IEEE Xplore, 2161-2064,(2014).

308. Graphene-coated Rayleigh SAW Resonators for NO2 Detection. B. de Nijs, S. Thomas, M. Cole, A. De Luca, F. Torrisi, A. C. Ferrari, F. Udrea, J. W. Gardner; Procedia Engineering, 87, 999 (2014).

307. Resonant Raman spectroscopy of twisted multilayer graphene. J-B. Wu, X. Zhang, M. Ijäs, W-P. Han, X.-F. Qiao, X-L. Li, D-S. Jiang, A. C. Ferrari, P-H. Tan; Nature Communications, 5, 5309 (2014), Supplementary information.

306. Photodetectors based on graphene, other two-dimensional materials and hybrid systems. F. H. L. Koppens, T. Mueller, Ph. Avouris, A. C. Ferrari, M. S. Vitiello, M. Polini; Nature Nanotech., 9, 780 (2014) .

305. Electrifying inks with 2d materials. F. Torrisi, J. N. Coleman; Nature Nanotech., 9, 738 (2014) .

304. Characterization of Ni thin films following thermal oxidation in air. L. De Los Santos Valladares, A. Ionescu, S. Holmes, C. H. W. Barnes, A. Bustamante Domínguez, O. Avalos Quispe, J. C. González, S. Milana, M. Barbone, A. C. Ferrari, H. Ramos, Y. Majima; J. Vac. Sci. Technol. B, 32, 051808 (2014).

303. Enhanced performance of polymer:fullerene bulk heterojunction solar cells upon graphene addition. P.Robaeys, F. Bonaccorso, E. Bourgeois, J. D'Haen, W. Dierckx, W. Dexters, D. Spoltore, J. Drijkoningen, J. Liesenborgs, A. Lombardo, A. C. Ferrari, F. Van Reeth, K. Haenen, J. V. Manca, M. Nesladek; Appl. Phys. Lett.,105, 083306 (2014).

302. Scalar Nanosecond Pulse Generation in a Nanotube Mode-Locked Environmentally Stable Fiber Laser. R. I. Woodward, E. J. R. Kelleher, D. Popa, T. Hasan, F. Bonaccorso, A. C. Ferrari, S. V. Popov, J. R. Taylor; IEEE Photonics Technology Letters, doi:10.1109/LPT.2014.2330739 (2014).

301. Graphene saturable absorber power scaling laser. Z. Jiang, G. E. Bonacchini, D. Popa, F. Torrisi, A. K. Ott, V. J. Wittwer, D. Purdie, A. C. Ferrari; CLEO: Science and Innovations (CLEO: S and I), JTu4A.67 (2014).

300. Synchronously coupled fiber lasers and sum frequency generation using graphene composites.M. Zhang, E. J. Kelleher, T. H. Runcorn, D. Popa, F. Torrisi, A. C. Ferrari; CLEO: Science and Innovations (CLEO: S and I), STu1I.2 (2014).

299. Sub-50 fs compressed pulses from a graphene-mode locked fiber laser.D. Purdie, D. Popa, V. J. Wittwer, Z. Jiang, F. Torrisi, A. C. Ferrari; CLEO: Science and Innovations (CLEO: S and I), STu1N.8 (2014).

298. Nanotube mode-locked, low repetition rate pulse source for fiber based supercontinuum generation at low average pump power. R. I. Woodward, E. J. Kelleher, T. H. Runcorn, D. Popa, T. Hasan, A. C. Ferrari; CLEO: Science and Innovations (CLEO: S and I), STh3N.8 (2014) .

297. Doping dependence of the Raman spectrum of defected graphene. M. Bruna, A. K. Ott, M. Ij ̈as, D. Yoon, U. Sassi, A. C. Ferrari; ACS Nano, 8, 7432 (2014) .

296. Double Wall Carbon Nanotubes for Wide-Band, Ultrafast Pulse Generation. T. Hasan, Z. Sun, P. H. Tan, D. Popa, E. Flahaut, E. J. R. Kelleher, F. Bonaccorso, F. Wang, Z. Jiang, F. Torrisi, G. Privitera, V. Nicolosi, A. C. Ferrari ;  ACS Nano, 8 (5), 4836 (2014).

295. Graphene modelocked VECSELs. C. A. Zaugg, V. J. Wittwer, Z. Sun, D. Popa, S. Milana, T. S. Kulmala, R. S. Sundaram, M. Mangold, M. Golling, Y. Lee, J. H. Ahn, A. C. Ferrari, U. Keller ; Proc. SPIE 8966, Vertical External Cavity Surface Emitting Lasers (VECSELs) IV, 896607; doi:10.1117/12.2038336 (2014).

294. Graphene saturable absorbers for VECSELs. V. J. Wittwer, C. A. Zaugg, Z. Sun, D. Popa, S. Milana, T. S. Kulmala, R. S. Sundaram, M. Mangold, M. Golling, Y. Lee, J. H. Ahn, U. Keller, A. C. Ferrari; Proc. SPIE 8966, Vertical External Cavity Surface Emitting Lasers (VECSELs) IV, 89660X; doi:10.1117/12.2039111 (2014).

293. Exciton Energy Transfer in Carbon Nanotubes Probed by Photoluminescence. P. H. Tan, T. Hasan, F. Bonaccorso, A. C. Ferrari; Luminescence: The Instrumental Key to the Future of Nanotechnology, Pan Stanford Publishing Pte. Ltd. (2014)

292. Effects of Electron-Electron Interactions on Electronic Raman Scattering of Graphite in High Magnetic Fields. Y. Ma, Y. Kim, N. G. Kalugin, A. Lombardo, A. C. Ferrari, J. Kono, A. Imambekov, D. Smirnov; Phys. Rev. B, 89, 121402(R) (2014).

291. Graphene nanoribbon blends with P3HT for organic electronics. M. E. Gemayel, A. Narita, L. F. Dössel, R. S. Sundaram, A. Kiersnowski, W. Pisula, M. R. Hansen, A. C. Ferrari, E. Orgiu, X. Feng, K. Müllen, P. Samorì ; Nanoscale, 6, 6031 (2014).

290. High performance bilayer-graphene Terahertz detectors. D. Spirito, D. Coquillat, S. L. De Bonis, A. Lombardo, M. Bruna, A. C. Ferrari, V. Pellegrini, A. Tredicucci, W. Knap, M. S. Vitiello; Appl. Phys. Lett. 104, 061111 (2014).

289. Photo-thermoelectric and photoelectric contributions to light detection in metal-graphene-metal photodetectors. T.J. Echtermeyer, P.S. Nene, M. Trushin, R.V. Gorbachev, A.L. Eiden, S. Milana, Z. Sun, J. Schliemann, E. Lidorikis, K.S. Novoselov, A. C. Ferrari;  Nano Lett. 14, 3733 (2014).

288. Anomalous low-temperature Coulomb drag in graphene-GaAs heterostructures . A. Gamucci, D. Spirito, M. Carrega, B. Karmakar, A. Lombardo, M. Bruna, L. N. Pfeiffer, K. W. West, A. C. Ferrari, M. Polini, V. Pellegrini; Nature Communications, 5, 5824 (2014).


 

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