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Cambridge Graphene Centre

Research Centre on Graphene, Layered Crystals and Hybrid Nanomaterials

Studying at Cambridge

 

2016

386. Joule heating effects in nanoscale carbon-based memory devices. 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, C. D. Wright,  IEEE NMDC, Oct., 1-2 (2016).

385. Long Spin Diffusion Length in Few-Layer Graphene Flakes. W. Yan, L. C. Phillips, M. Barbone, S. J. Hämäläinen, A. Lombardo, M. Ghidini, X. Moya, F. Maccherozzi, S. van Dijken, S. S. Dhesi, A. C. Ferrari, N. D. Mathur, Phys. Rev. Lett. 117, 147201 (2016).

384. 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, arXiv:1609.04244 (2016).

383. High Responsivity, Large-Area Graphene/MoS2 Flexible Photodetectors. D. De Fazio, I. Goykhman, M. Bruna, A. Eiden, S. Milana, D. Yoon, U. Sassi, M. Barbone, D. Dumcenco, K. Marinov, A. Kis, A. C. Ferrari, ACS Nano 10, 8252 (2016).

382. Solvent‐Based Soft‐Patterning of Graphene Lateral Heterostructures for Broadband High‐Speed Metal–Semiconductor–Metal Photodetectors, Y. Xu, A. Ali, K. Shehzad, N. Meng, M. Xu, Y. Zhang, X. Wang, C. Jin, H. Wang, Y. Guo, Z. Yang, B. Yu, Y. Liu, Q. He, X. Duan, X. Wang, P. H. Tan, W. Hu, H. Lu, T. Hasan; Adv. Mater. Technol. 2, 1600241 (2016)

381. Carbon-Based Resistive Memories. W. W. Koelmans, T. Bachmann, F. Zipoli, A. K. Ott, C. Dou, A. C. Ferrari, O. Cojocaru-Miredin, S. Zhang, C. Scheu, M. Wuttig, V. K. Nagareddy, M. F. Craciun, A. M. Alexeev, C. D. Wright, V. P. Jonnalagadda, A. Curioni, A. Sebastian, E. Eleftheriou, IEEE International  Memory Workshop (IMW), 1-4 (2016)..

380. Theory of edge-state optical absorption in two-dimensional transition metal dichalcogenide flakes, M. Trushin, E. J. R. Kelleher, T. Hasan; Phys. Rev. B 94, 15301 (2016)

379. Liquid-Phase Exfoliation of Graphite into Single- and Few-Layer Graphene with α-Functionalized Alkanes. S. Haar, M. Bruna, J. Xiang Lian, F. Tomarchio, Y. Olivier, R. Mazzaro, V. Morandi, J. Moran, A. C. Ferrari, D. Beljonne, A. Ciesielski, P. Samorì, J. Phys. Chem. Lett. 7, 2714 (2016).

378. 152 fs nanotube-mode-locked thulium-doped all-fiber laser, J. Wang, X. Liang, G. Hu, Z. Zheng, S. Lin, D. Ouyang, X. Wu, P. Yan, S. Ruan, Z. Sun, T. Hasan; Sci. Rep. 6, 28885 (2016).

377. Atomically thin quantum light emitting diodes. C. P. Berraquero, M. Barbone, D. M. Kara, X. Chen, I. Goykhman, D. Yoon, A. K. Ott, J. Beitner, K. Watanabe, T. Taniguchi, A. C. Ferrari, M. Atature, Nature Commun. 7, 12978 (2016).

376. Manganese Dioxide Nanosheets Functionalizing Sulfur@PEDOT Core-Shell Nanospheres for Advanced Lithium-Sulfur Batteries, Y. Li, M. Yan, Y. Zhang, Y. Huo, Y. Yu, C. Wang, J. Jin, L. Chen, T. Hasan, B. Wang, B.-L. Su; J. Mater. Chem. A 4, 9403 (2016).

375. On-chip integrated, silicon-graphene plasmonic Schottky photodetector, with high responsivity and avalanche photogain. I. Goykhman, U. Sassi, B. Desiatov, N. Mazurski, S. Milana, D. Fazio, A. Eiden, J. B. Khurgin, J. Shappir, U. Levy, A. C. Ferrari, Nano Lett16, 3005 (2016).

374. Sensitive Electronic-Skin Strain Sensor Array Based on the Patterned Two-Dimensional α-In2Se3, W. Feng, W. Zheng, F. Gao, X. Chen, G. Liu, T. Hasan, W. Cao, P. Hu; Chem. Mater. 28, 4278 (2016).

373. Light-enhanced liquid-phase exfoliation and current photoswitching in graphene–azobenzene composites. M. Döbbelin, A. Ciesielski, S. Haar, S. Osella, M. Bruna, A. Minoia, L. Grisanti, T. Mosciatti, F. Richard, E.A. Prasetyanto, L. De Cola, V. Palermo, R. Mazzaro, V. Morandi, R. Lazzaroni, A. C. Ferrari, D. Beljonne, P. Samorì, Nature Commun7, 11090 (2016).

372. Ultrafast Nonlinear Photoresponse of Single-Wall Carbon Nanotubes: A Broadband Degenerate Investigation, S. Xu, F. Wang, C. Zhu, Y. Meng, Y. Liu, W. Liu, J. Tang, K. Liu, G. Hu, R. Howe, T. Hasan, R. Zhang, Y. Shi, Y. Xu; Nanoscale 4, 9403 (2016).

371. Stable, Surfactant-Free Graphen-Styrene Methylmethacrylate Composite for Ultrafast Lasers. F. Torrisi, D. Popa, S. Milana, Z. Jiang, T. Hasan, E. Lidorikis, A. C. Ferrari, Adv. Optical Mater. 4, 1088 (2016).

370. Inkjet-printed graphene electrodes for dye-sensitized solar cells, D. Dodoo-Arhin, R. C. T. Howe, G. Hu, Y. Zhang, P. Hiralal, A. Bello, G. Amaratunga, T. Hasan; Carbon 105, 33 (2016)

369. Tunnelling anisotropic magnetoresistance at La0.67Sr0.33MnO3-graphene interfaces. L. C. Phillips, A. Lombardo, M. Ghidini, W. Yan, S. Kar-Narayan, S. J. Hamalainen, M. Barbone, S. Milana, S. van Dijken, A. C. Ferrari, N. D. Mathur,  Appl. Phys. Lett. 108, 112405 (2016).

368. 3D interconnected hierarchically macro-mesoporous TiO 2 networks optimized by biomolecular self-assembly for high performance lithium ion batteries, X.-N. Ren, L. Wu, J. Jin, J. Liu, Z.-Y. Hu, Y. Li, T. Hasan, X.-Y. Yang, G. Van Tendeloo, B.-L. Su; RSC Adv. 6, 26856 (2016).

367. Raman fingerprints of atomically precise graphene nanoribbons. I. Verzhbitskiy, M. De Corato, A. Ruini, E. Molinari, A. Narita, Y. Hu, M. G. Schwab, M. Bruna, D. Yoon, S. Milana, X. Feng, K. Müllen, A.C. Ferrari, C. Casiraghi, D. Prezzi,  Nano Lett. 16, 3442 (2016).

366. Unique walnut-shaped porous MnO2/C nanospheres with enhanced reaction kinetics for lithium storage with high capacity and superior rate capability, Y. Li, S. Huang, Y. Cai, J. Jin, J. Liu, H.-E. Wang, L. Chen, T. Hasan, B.-L. Su; J. Mater. Chem. A 4, 4264 (2016)

365. Transport Conductivity of Graphene at RF and Microwave Frequencies. S. A. Awan, A. Lombardo, A. Colli, G. Privitera, T. Kulmala, J. M. Kivioja, M. Koshino, A. C. Ferrari,  2D Mater. 3, 015010 (2016).

364. 3D Interconnected Macro-mesoporous Electrode with Self-assembled NiO nanodots for High-performance Supercapacitor-like Li-ion Battery, X. Zheng, H. Wang, C. Wang, Z. Deng, L. Chen, Y. Lia, T. Hasan, B.-L. Su; Nano Energy 22, 269 (2016)

363. Surface plasmon polariton graphene photodetectors. T. J. Echtermeyer, S. Milana, U. Sassi, A. Eiden, M. Wu, E. Lidorikis, A. C. Ferrari, Nano Lett. 16, 8 (2016).

362. Anisotropic Growth of Nonlayered CdS on MoS2 Monolayer for Functional Vertical Heterostructures, W. Zheng, W. Feng, X. Zhang, X. Chen, G. Liu, Y. Qiu, T. Hasan, P. H. Tan, P. Hu; Adv. Funct. Mater. 26, 2648 (2016).

361. Photo-Induced Bandgap Renormalization Governs the Ultrafast Response of Single-Layer MoS2. E. A. A. Pogna, M. Marsili, D. De Fazio, S. Dal Conte, C. Manzoni, D. Sangalli, D.Yoon, A. Lombardo, A. C. Ferrari, A. Marini, G. Cerullo, D. Prezzi,  ACS Nano 10, 1182 (2016).

360. Hierarchical TiO2/C nanocomposite monoliths with a robust scaffolding architecture, mesopore-macropore network and TiO2-C heterostructure for high-performance lithium ion batteries, H. Huang, Y. Yang, L. Chen, Y. Wang, S. Huang, J. Tao, X. Ma, T. Hasan, Y. Li, Y. Xu, B.-L. Su; Nanoscale 8, 10928 (2016).

359. Graphene-Based Interfaces do not Alter Target Nerve Cells. A. Fabbro, D. Scaini, V. Leon, E. Vázquez, G. Cellot, G. Privitera, L. Lombardi, F. Torrisi, F. Tomarchio, F. Bonaccorso, S. Bosi, A. C Ferrari, L. Ballerini, M. Prato,  ACS Nano 10, 615 (2016).

358. Surfactant-aided exfoliation of molydenum disulphide for ultrafast pulse generation through edge-state saturable absorption, R. C. T. Howe, R. I. Woodward, G. Hu, Z. Yang, E. J. R. Kelleher, T. Hasan; Phys. Stat. Solidi (b)  253, 911 (2016)

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Dr Luigi Occhipinti joins the Cambridge Graphene Centre

Feb 01, 2018

The Cambridge Graphene Centre welcomes Dr Luigi Occhipinti as Deputy Director and Chief Operating Officer.

Zero Gravity Graphene Promises Success in Space

Feb 01, 2018

In a series of exciting experiments conducted in November and December, Cambridge Graphene Centre researchers experienced weightlessness testing graphene’s application in space.

State-of-the-art new facilities open at Cambridge Graphene Centre

Nov 23, 2017

The Cambridge Graphene Centre is pleased to announce the opening of two new high-specification facilities: cleanrooms for precision fabrication of electrical and optoelectronic devices and a dryroom for large-scale battery prototypes.

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