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N. Kovtyukhova, Y. Wang, A. Berkdemir, R. Cruz-Silva, M. Terrones, V. Crespi, T. Mallouk. "Non-oxidative intercalation and exfoliation of graphite by Bronsted acids," Nature Chemistry (2014).
H. Terrones, F. López-Urías, M. Terrones. ”New direct band gap hybrid materials based on bilayers of transition metal dichalcogenides,” Nature Scientific Reports, in press (2013).
A. Berkdemir, H. R. Gutiérrez, A. R. Botello-Méndez, N. Perea-López, A. L. Elías, C.-I. Chia, B. Wang, V. H. Crespi, F. López-Urías, J.-C. Charlier, H. Terrones, M. Terrones. “Identification of individual and few layers of WS2 using Raman Spectroscopy,” Nature Scientific Reports, in press (2013).
A. L. Elías, N. Perea-López, A. Castro-Beltrán, A. Berkdemir, R. Lv, S. Feng, A. Long, T. Hayashi, Y. A. Kim, M. Endo, H. R. Gutiérrez, N. R. Pradhan, L. Balicas, T. E. Mallouk, F. López-Urías, H. Terrones, M. Terrones. “Controlled Synthesis and Transfer of Large Area WS2 Sheets: From Single-Layer to Few-Layers,” ACS Nano ASAP (2013).
N. Perea-López, A. L. Elías, A. Berkdemir, A. Castro-Beltran, H. R. Gutiérrez, S. Feng, T. Hayashi, F. López-Urías, S. Ghosh, B. Muchharla, S. Talapatra, H. Terrones, M. Terrones. "Photocurrent studies on large-area and few-layered WS2 films,“ Advanced Functional Materials, in press (2013).
N. I. Kovtyukhova, Y. Wang, R. Lv, M. Terrones, V. H. Crespi and T. E. Mallouk. “Reversible intercalation of hexagonal boron nitride with Brønsted acids,” JACS, in press (2013).
N.R. Pradhan, D. Rhodes, Q. Zhang, S. Talapatra, M. Terrones, P.M. Ajayan, and L. Balicas. “Intrinsic carrier mobility of multi-layered MoS2 field-effect transistors on SiO2,” Applied Physics Letters (2013).
N. Perea-López, A. L. Elías, A. Castro-Beltrán, A. Berkdemir, R. Lv, S. Feng, T. Hayashi, Y. Ahm Kim, M. Endo, H. R. Gutiérrez, N. R. Pradhan, L. Balicas, F. López-Urías, H. Terrones, M. Terrones. "Photo Sensor Device Based on Few-Layered WS2 Films", Advanced Functional Materials. Just Accepted (2013).
H. Terrones, F. Lopez-Urias, M. Terrones. “Novel hetero-layered materials with tunable direct band gaps by sandwiching different metal disulfides and diselenides,” Nature Scientific Reports 3, 1549. DOI: 10.1038/srep01549 (2013).
M. J. Hollander, A.Agrawal, M.S. Bresnehan, M. LaBella, K.A. Trumbull, R.Cavalero, D.W. Snyder, S.Datta, and J.A. Robinson; “Heterogeneous integration of hexagonal boron nitride on bilayer quasi-free-standing epitaxial graphene and its impact on electrical transport properties,” Phys. Status Solidi A, 1–9 (2013) / DOI 10.1002/pssa.201228683
O. Shklyaev, E. Mockensturm and V. H. Crespi, “Theory of Carbomorph Cycles,” Phys. Rev. Lett. 110, 156803 (2013).
X. M. Liu, Y. J. Tang, E. S. Xu, T. C. Fitzgibbons, G. S. Larsen, H. R. Guiterrez, H. H. Tseng, M. S. Yu, C. S. Tsao J. V. Badding, V. H. Crespi, A. D. Lueking, “Evidence for Ambient-Temperature Reversible Catalytic Hydrogenation in Pt-doped Carbons,” Nanoletters 13, 137–141 (2013).
K. Zou, F. Zhang, C. Clapp, A.H. MacDonald and J. Zhu, “Transport studies of dual-gated ABC and ABA trilayer graphene: band gap opening and band structure tuning in very large perpendicular electric field,” Nano Lett.,13, 369 (2013).
H. R. Gutiérrez, N. Perea-López, A. L. Elías, A. Berkdemir, B. Wang, R. Lv, F. López-Urías, V. H. Crespi, H. Terrones, M. Terrones. “Extraordinary room-temperature photoluminescence in WS2 triangular monolayers,” Nano Lett. In press (2012). DOI: 10.1021/nl3026357.
M.S. Bresnehan, M.J. Hollander, M. LaBella, K.A. Trumbull, R. Cavalero, D. W. Snyder, and J.A. Robinson, “Integration of Hexagonal Boron Nitride with Quasi-Freestanding Epitaxial Graphene: Towards Wafer-Scale, High-Performance Devices,” ACS Nano, 2012; DOI: 10.1021/nn300996t.
C. Howsare, X. Weng, D. Snyder, V. Bojan, T. Daniels, J.A. Robinson; “Transfer-Free Processing of Graphene on Copper Films: Effect of the Copper/Substrate Interaction,” Nanotechnology, 2012; 23 135601.
J. W. Lee, A. S. Hall, J.-D. Kim, and T. E. Mallouk, "A facile and template-free hydrothermal synthesis of Mn3O4 nanorods on graphene sheets for supercapacitor electrodes with long cycle stability," Chem. Mater. 24, 6, 1158-1164 (2012).
S. Zhang, J. Li, I. Gilbert, J. Bartell, M. Erickson, Y. Pan, P. Lammert, C. Nisoli, K. Kohli, R. Misra, V. Crespi, N. Samarth, C. Leighton and P. Schiffer, “Perpendicular Magnetization and Generic Realization of the Ising Model in Artificial Spin Ice,” Phys. Rev. Lett. 109, 087201 (2012).
C. Chia and V. Crespi, “Stabilizing the Zigzag Edge: Graphene Nanoribbons with Sterically Constrained Terminations,” Phys. Rev. Lett. 109, 076802 (2012).
R. Lu, Q. Li, A. Botello-Méndez, T. Hayashi, B. Wang, A. Berkdemir, Q. Hao, A. Elias Arriaga, R. Cruz-Silva, H. Gutierrez, Y. Kim, H. Muramatsu, J. Zhu, M. Endo, H. Terrones, J. Charlier, M. Pan and M. Terrones, "Nitrogen-doped graphene: beyond single substitution and enhanced molecular sensing," Scien. Rep. 2, 586 (2012).
X. Hong, K. Zou, A. DaSilva, C. H. Ahn and J. Zhu, "Integrating functional oxides with graphene," Solid State Commun. 152, 1365 – 1374 (2012).
X. Hong, K. Zou, B. Wang, S.-H. Cheng and J. Zhu, “Evidence for spin-flip scattering and local moments in dilute fluorinated graphene,” Phys. Rev. Lett. 108, 226602 (2012).
T.-H. Wang, T. I. Draskovic, C. N. Henderson, and T. E. Mallouk, "Synthesis, exfoliation, and electronic/protonic conductivity of the Dion-Jacobson phase layer perovskite HLa2TiTa2O10.nH2O," submitted to Chem. Mater.
E. C. Sklute, M. Eguchi, M. S. Angelone, H. P. Yennawar, and T. E. Mallouk, "Orientation of diamagnetic layered transition metal oxide particles in 1-Tesla magnetic fields," J. Am. Chem. Soc., 133, 1824-1831 (2011).
O. Shklyaev, E. Mockensturm and V. H. Crespi, “Modeling Electrostatically Induced Collapse Transitions in Carbon Nanotubes,” Phys. Rev. Lett. 106, 155501 (2011).
S. Zhang, J. Li, J. Bartell, X. Ke, C. Nisoli, P. E. Lammert, V. H. Crespi and P. Schiffer, “Ignoring Your Neighbors: Moment Correlations Dominated by Indirect or Distant Interactions in an Ordered Nanomagnet Array,” Phys. Rev. Lett. 107, 117204 (2011).
K. Zou, X. Hong and J. Zhu, “Effective mass of electrons and holes in bilayer graphene: electron-hole asymmetry and electron-electron interaction,” Phys. Rev. B 84, 085408 (2011).
X. Hong, S.-H. Cheng, C. Herding and J. Zhu, “Colossal negative magnetoresistance in dilute fluorinated grapheme,” Phys. Rev. B 83, 085410 (2011).
P. E. Lammert, X. Ke, J. Li, C. Nisoli, D. Garand, V. H. Crespi & P. Schiffer, “Direct entropy determination and application to artificial spin ice,” Nature Phys. 6, 786 (2010).
Bei Wang, Justin R. Sparks, Humberto R. Gutierrez, Fujio Okino, Qingzhen Hao, Youjian Tang, Vincent H. Crespi, Jorge O. Sofo and J. Zhu, “Photoluminescence from nanocrystalline graphite monofluoride”, Appl. Phys. Lett. 97, 141915 (2010).
K. Zou, and J. Zhu, “Transport in gapped bilayer graphene: The role of potential fluctuations,” Phys. Rev. B 82, 081407 (R) (2010).
K. Zou, X. Hong, D. Keefer, and J. Zhu, “The deposition of high-quality HfO2 on graphene and the effect of remote oxide phonon scattering,” Phys. Rev. Lett. 105, 126601 (2010).
X. Hong, J. Hoffman, A. Posadas, K. Zou, C. H. Ahn, and J. Zhu, “Unusual resistance hysteresis in n-layer graphene field effect transistors fabricated on ferroelectric oxide Pb(Zr0.2Ti0.8)O3 ,”Appl. Phys. Lett. 97, 033114 (2010).
Ashley DaSilva, Ke Zou, J.K. Jain and J. Zhu "Mechanism for current saturation and energy dissipation in graphene transistors," Phys. Rev. Lett. 104, 236601 (2010).
S. Cheng, K. Zou, F. Okino, H.R. Gutierrez, A. Gupta, N. Shen, P. Eklund, J.O. Sofo, and J. Zhu, “Reversible fluorination of graphene: evidence of a two-dimensional wide band gap semiconductor,” Phys. Rev. B 81, 205435 (2010).
G. Begtrup, W. Gannett, T. D. Yuzvinsky, V. H. Crespi and A. Zettl, “Nanoscale Reversible Mass Transport for Archival Memory,” Nanoletters 9, 1835 (2009).
F. Zhang, V. H. Crespi and P. Zhang, “Prediction that Uniaxial Tension along 111 Produces a Direct Band Gap in Germanium,” Phys. Rev. Lett. 102, 156401 (2009).
H. Saavedra, C. M. Thompson, J. N. Hohman, V. H. Crespi and P. S. Weiss, “Reversible Lability by in-Situ Reaction of Self Assembled Monolayers,” J. Am. Chem. Soc. 131, 2252 (2009).
X. Hong, K. Zou and J. Zhu, “The quantum scattering time and its implications on scattering sources in graphene,” Phys. Rev. B 80, 241415(R) (2009).
X. Hong, A. Posadas, K. Zou, C. H. Ahn and J. Zhu, “High-Mobility Few-Layer Graphene Field Effect Transistors Fabricated on Epitaxial Ferroelectric Gate Oxides,” Phys. Rev. Lett. 102, 136808 (2009).
J. Zhu, “Graphene production: New solutions to a new problem,” News&Views, Nat. Nano. 3, 528 (2008).
Terrones, M., Charlier, J. –C., Gloter, A., Cruz-Silva, E., Terrés, E., Li, Y. B., Vinu, A., Zanolli, Z., Dominguez, J. M., Terrones, H., Bando, Y., Golberg, D (2008). “Experimental and Theoretical Studies Suggesting the Possibility of Metallic Boron Nitride Edges in Porous Nanourchins,” Nano Lett. 8, 1026-1032.
Endo, Y.A., Muramatsu, H., Kim, Y.A., Hayashi, T., Terrones, M., Dresselhaus, M. (2005). “Buckypaper of Coaxial Nanotubes,” Nature 433, 476.
Zhu Y.Q., Hsu W.K., Firth, S., Terrones M., Clark R.J.H., Kroto H.W., Walton D.R.M. (2001) “Nb-doped WS2 nanotubes,” Chemical Physics Letters 342, 15-21.
Hsu, W. K., Zhu, Y Q., Kroto, H. W., Walton, D. R. M., Kamalakaran, R., Terrones, M. (2000) “C-MoS2 and C-WS2 Nanocomposites,” Applied Physics Letters 77, 4130-4132.
Zhu, Y Q., Hsu, W. K., Terrones, H., Grobert, N., Chang, B. H., Terrones, M., Wei, B.Q., Kroto, H. W., Walton, D. R. M., Boothroyd, C. B., Kinloch, I., Chen, G. Z., Windle, A. H., Fray, D. J. (2000) “Morphology, structure and growth of WS2 nanotubes,” Journal of Materials Chemistry 10, 2570-2577.
Seifert, G., Terrones, H., Terrones, M., Jungnickel, G., Frauenheim, T. (2000). “On the Electronic Structure of WS2 nanotubes,” Solid State Communications 114, 245-248.
Zhu, Y.Q., Hsu, W.K., Grobert, G., Chang, B.H., Terrones, M., Terrones, H., Kroto, H.W., Walton, D.R.M. Wei, B. Q. (2000) "In-situ production of WS2 nanotubes," Chemistry of Materials 12, 1190-1194.
Seifert, G., Terrones, H., Terrones, M., Jungnickel, G., Frauenheim, T. (2000). "Structure and electronic properties of MoS2 nanotubes," Physical Review Letters 85, 146.
Terrones, M., Grobert, N., Olivares, J., Zhang, J.P, Terrones, H., Kordatos, K., Hsu, W. K., Hare, J.P., Kroto, H.W., Prassides, K., Cheetham, A.K., Townsend, P.D., Walton, D.R.M. (1997) "Controlled Production of aligned-nanotube bundles," Nature, 388, 52.
Graphene and Graphene Fluoride: Synthesis, Properties and Applications, Bei Wang, 2012.
Transport Studies of Mono-, Bi- and Tri-layer Graphene, Ke Zou, 2012.
Books and Other Chapters
Terrones, M. & Terrones, H. (Eds) “Nanotechnology of Carbon and Related Materials” Philosophical Transactons, The Royal Society (UK), October 2004.
J.-C. Charlier, P. C. Eklund, J. Zhu and A. C. Ferrari, “Electron and Phonon Properties of Graphene: Their relationship with Carbon Nanotubes," Chapter 21 in Carbon Nanotubes: Advanced Topics in the Synthesis, Structure, Properties and Applications, Edited by Dresselhaus, Dresselhaus and Jorio, Springer Verlag, 2008 p. 673-709.
J. Zhu, “Electronic transport in graphene”, Chapter 2 in Graphene Nanoelectronics: From Materials to Circuits, Edited by Raghunath Murali, Springer 2012 p. 17-49.