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Cambridge Graphene Centre

Research Centre on Graphene, Layered Crystals and Hybrid Nanomaterials

Studying at Cambridge



362. Terahertz saturable absorbers from liquid phase exfoliation of graphite. V. Bianchi, T. Carey, L. Viti, L. Li, E. H. Linfield, A. G.Davies, A. Tredicucci, D. Yoon, P. G. Karagiannidis, L. Lombardi, F. Tomarchio, A. C. Ferrari, F. Torrisi, M. S. Vitiello, Nature Commun. 8, 15763 (2017).

361. High-Q optical microresonators functionalized with two-dimensional material. C. Javerzac-Galy, N. Piro, R. Schilling, A. Kumar, M. Barbone, I. Goykhman, A. C. Ferrari, T. J. Kippenberg, Conf. on Lasers and Electro-Optics 2017,  STh1I.2 (2017).

360. Bound state operation of an all-polarization maintaining Er-doped fiber laser. Z. Zhao, D. Popa, B. Fu, S. Hussain,  A. C. Ferrari, Conf. on Lasers and Electro-Optics 2017,  JW2A.4 (2017).

359. Active control of absorption in a hybrid graphene-microfiber modulator. Z. Zhao, D. Popa, U. Sassi, Z. Yang, Y. Xu, L. Tong, A. C. Ferrari, Conf. on Lasers and Electro-Optics 2017, AF1B.5 (2017).

358. Coherent Raman spectroscopy with a graphene-synchronized all-fiber laser. D. Popa, D. Viola, G. Soavi, B. Fu, L. Lombardi, S. Hodge, D. Polli, T. Scopigno, G. Cerullo, A. C. Ferrari, Conf. on Lasers and Electro-Optics 2017, JTu5A.2 (2017).

357. A stable, power scaling, graphene-mode-locked all-fiber oscillator.  D. Popa, Z. Jiang, G. E. Bonacchini, Z. Zhao, L. Lombardi, F. Torrisi, A. K. Ott, E. Lidorikis,  A. C. Ferrari, Appl. Phys. Lett. 110 243102 (2017).

356. Graphene and related materials for resistive random access memories. F. Hui, E.Grustan-Gutierrez, S. Long, Q. Liu, A. Ott, A. C. Ferrari, and M. Lanza, Adv. Electronic Mater. DOI: 10.1002/aelm.201600195 (2017).

355. Linear and Nonlinear Spectroscopy by a Common-Path Birefringent Interferometer. F. Preda, A. Oriana, J. Rehault, L. Lombardi, A. C. Ferrari, G. Cerullo, and D. Polli,  IEEE J. Sel. Topics Quantum Electron. 23, 1 (2017).

354. Graphene Phase Modulator. V. Sorianello, M. Midrio, G. Contestabile, I. Asselberg, J. Van Campenhout, C. Huyghebaerts, I. Goykhman, A. K. Ott, A. C. Ferari, and M. Romagnoli, arXiv:1704.01525 (2017).

353. Raman spectroscopy of graphene under ultrafast laser excitation. C. Ferrante, A. Virga, L. Benfatto, M. Martinati, D. De Fazio, U. Sassi, C. Fasolato, A. K. Ott, P. Postorino, D.Yoon, G. Cerullo, F. Mauri, A. C. Ferrari, and T. Scopigno, arXiv:1704.00186 (2017).

352. Large-scale quantum-emitter arrays in atomically thin semiconductors. C. Palacios-Berraguero, D M. Kara, A. R-P Montblanch, M. Barbone, P. Latawiec, D. Yoon, A. Ott, M. Loncar, A .C .Ferrari, and M. Atature, Nature Commun. 8, 15093 (2017).

351. Temperature Evolution in Nanoscale Carbon-Based Memory Devices due to Local Joule Heating. T. A. Bachmann, A. M. Alexeev, W. W. Koelmans, F. Zipoli, A. K. Ott, C. Dou, A. C. Ferrari, V. K. Nagareddy, M. F. Craciun, V. P. Jonnalagadda, A. Curioni, A. Sebastian, E. Eleftheriou, and C. D. Wright, IEEE Trans. Nano. DOI: 10.1109/TNANO.2017.2674303 (2017).

350. Enhanced piezoelectric effect at the edges of stepped molybdenum disulfide nanosheets. X. Song, F. Hui, K. Gilmore, B. Wang, G. Jing, Z. Fan, E. Grustan-Gutierrez, Y. Shi, L. Lombardi, S. Hodge, A. C. Ferrari, and M. Lanza, Nanoscale, 6, 6237 (2017).

349. Graphene-based, mid-infrared, room-temperature pyroelectric bolometers with ultrahigh temperature coefficient of resistance. U. Sassi, R. Parret, S. Nanot, M. Bruna, S. Borini, S. Milana, D. De Fazio, Z. Zhuang, E. Lidorikis, F. H. L. Koppens, A. C. Ferrari, and A. Colli, Nature Commun. 8,14311 (2017).

348. Weak Localization in Electric-Double-Layer Gated Few-layer Graphene. R. S. Gonnelli, E. Piatti, A. Sola, M. Tortello, F. Dolcini, S. Galasso, J. R. Nair, C. Gerbaldi, E. Cappelluti, M. Bruna, and A. C. Ferrari, 2D Mater. at press DOI: 10.1088/2053-1583/aa5afe (2017).

347. Microfluidization of graphite and formulation of graphene-based conductive inks. P. G. Karagiannidis, S. A. Hodge, L. Lombardi, F. Tomarchio, N. Decorde, S. Milana, I. Goykhman, Y. Su, S. V. Mesite, D. N. Johnstone, R. K. Leary, P. A. Midgley, N. M. Pugno, F. Torrisi, and A. C. Ferrari, ACS Nano 11, 2742 (2017).

346. P-wave triggered superconductivity in single-layer graphene on an electron-doped oxide superconductor. A. Di Bernardo, O. Millo, M. Barbone, H. Alpern, Y. Kalcheim, U. Sassi, A. K. Ott, D. De Fazio, D. Yoon, M. Amado, A. C. Ferrari, J. Linder, and J. W. A. Robinson, Nature Commun. 8, 14024 (2017).



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Let there be Light: Deterministic arrays of Quantum Dots

May 22, 2017

Large scale, fully integrable arrays of single photon quantum emitters are demonstrated in layered materials, which could lead to hybrid on-chip photonics devices for networks and sensing.

Cambridge Graphene Centre Technology Day

May 17, 2017

On 25th May, the Cambridge Graphene Centre’s industrial partners will gather in Cambridge for a day of networking, exhibitions and panel discussions.

Graphene inks mesmerise in EPSRC Photography Competition

Apr 03, 2017

James Macleod's stunning image of graphene inks has scooped more prizes in the 2017 EPSRC Photography Competition

Prof. Ferrari Awarded NANOSMAT Award 2017

Mar 30, 2017

Congratulations to Prof. Ferrari, who has been announced as the recipient of the NANOSMAT Award 2017 for "outstanding" contributions to nanoscience and nanotechnology.

Scalable 100% Yield Production of Conductive Graphene Inks

Feb 21, 2017

Conductive inks based on graphene and layered materials are key for low-cost manufacturing of flexible electronics, novel energy solutions, composites and coatings. A new method for liquid-phase exfoliation of graphite paves the way for scalable production.

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