Michael S Fuhrer - Publications

86.	Charge inhomogeneity determines oxidative reactivity of graphene on substrates Mahito Yamamoto, Theodore L. Einstein, Michael S. Fuhrer, and William G. Cullen ACS Nano 6, 8335 (2012). available online
85.	Potential Steps at C₆₀-TiOPc-Ag(111) Interfaces: Ultrahigh-Vacuum-Noncontact Scanning Probe Metrology K.M. Burson, Y.Y. Wei, W.G. Cullen, M.S. Fuhrer, J.E. Reutt-Robey Nano Letters 12, 2859 (2012). available online
84.	Intrinsic Electron-Phonon Resistivity in Bi₂Se₃ in the Topological Regime Dohun Kim, Qiuzi Li, Paul Syers, Nicholas P. Butch, Johnpierre Paglione, S. Das Sarma, Michael S. Fuhrer Phys. Rev. Lett. 109, 166801 (2012). available online
83.	Towards spin injection from silicon into topological insulators: Schottky barrier between Si and Bi₂Se₃ C. Ojeda-Aristizabal, M. S. Fuhrer, N. P Butch, J. Paglione, I. Appelbaum Applied Physics Letters 101, 023102 (2012). download PDF
82.	Layer Number and Stacking Sequence Imaging of Few-layer Graphenes by Transmission Electron Microscopy Jinglei Ping and Michael S. Fuhrer Nano Letters 12, 4635 (2012). available online
80.	High-quality uniform dry transfer of graphene to polymers Evgeniya H Lock, Mira Baraket, Matthew Laskoski, Shawn Patrick Mulvaney, Woo Kyung Lee, Paul Sheehan, Daniel R. Hines, Jeremy T Robinson, Jacob Tosado, Michael S. Fuhrer, Sandra C. Hernàndez, and Scott G. Walton Nano Letters 12, 102 (2012). available online
79.	Topological insulator quantum dot with tunable barriers Sungjae Cho, Dohun Kim, Paul Syers, Nicholas P. Butch, Johnpierre Paglione, and Michael S. Fuhrer Nano Letters 12, 469 (2012). available online
78.	Dual-gated bilayer graphene hot electron bolometer J. Yan, M.-H. Kim, J.A. Elle, A.B. Sushkov, G.S. Jenkins, H.M. Milchberg, M.S. Fuhrer, and H.D. Drew Nature Nanotechnology 7, 472 (2012). available online at Nature Nanotechnology or arXiv:1111.1202
77. .	Single Carbon Nanotube Schottky Diode Microwave Rectifiers Enrique D. Cobas, Steven M. Anlage, and M. S. Fuhrer IEEE Trans. Microwave Theory Tech. (Special Issue on Radio-Frequency Nanoelectronics) 59, 2726-2732 (2011). download PDF
76.	Universal conductance fluctuations in Dirac materials in the presence of long-range disorder E. Rossi, J. H. Bardarson, M. S. Fuhrer, and S. Das Sarma Phys. Rev. Lett. 109, 096801 (2012). download PDF or arXiv:1110.5652
75.	Polymeric semiconductor/graphene hybrid field-effect transistors Jia Huang, Daniel R. Hines, Byung Jun Jung, Merijntje S. Bronsgeest, Andrew Tunnell, Vince Ballarotto, Howard E. Katz, Michael S. Fuhrer, Ellen D. Williams, John Cumings Organic Electronics 12, 1471 (2011). download PDF
74.	Characterization of the electrical contact between a conductive atomic force microscope cantilever and a carbon nanotube Tarek K. Ghanem, Ellen D. Williams, and Michael S. Fuhrer Journal of Applied Physics 110, 054305 (2011). download PDF
73.	Correlated charged impurity scattering in graphene Jun Yan, Michael S. Fuhrer Physical Review Letters 107, 206601 (2011). download PDF or arXiv:1106.4835
72.	Surface conduction of topological Dirac electrons in bulk insulating Bi₂Se₃ Dohun Kim, Sungjae Cho, Nicholas P. Butch, Paul Syers, Kevin Kirshenbaum, Shaffique Adam, Johnpierre Paglione, Michael S. Fuhrer Nature Physics 8, 460 (2012) available online at Nature Physics and arXiv:1105.1410
71.	Kelvin probe microscopy and electronic transport in graphene on SiC(0001) in the minimum conductivity regime A. E. Curtin, M. S. Fuhrer, J. L. Tedesco, R. L. Myers-Ward, C. R. Eddy, Jr., and D. K. Gaskill Applied Physics Letters 98, 243111 (2011). download PDF
70.	Insulating Behavior in Ultrathin Bismuth Selenide Field Effect Transistors Sungjae Cho, Nicholas P. Butch, Johnpierre Paglione, and Michael S. Fuhrer Nano Letters 11, 1925 (2011). available online
69.	Transfer Printing Approach to All-Carbon Nanoelectronics V. K. Sangwan, A. Southard, T. L. Moore, V. W. Ballarotto, D. R. Hines, M. S. Fuhrer, E. D. Williams Microelectronics Engineering 88, 3150 (2011). (download PDF) or arXiv:1011.3269
68.	Proposal for a Topological Plasmon Spin Rectifier Ian Appelbaum, H.D. Drew, M.S. Fuhrer Applied Physics Letters 98, 023103 (2011). download PDF or arXiv:1011.2697
67.	Raman and optical characterization of multilayer turbostratic graphene grown via chemical vapor deposition Daniel R. Lenski, Michael S. Fuhrer Journal of Applied Physics 110, 013720 (2011) (download PDF) or arXiv:1011.1683
66.	High-fidelity conformation of graphene to SiO₂ topographic features William G. Cullen, Mahito Yamamoto, Kristen M. Burson, Jianhao Chen, Chaun Jang, Liang Li, Michael S. Fuhrer, Ellen D. Williams Physical Review Letters 105, 215504 (2010). download PDF or a rXiv:1007.4802
65.	Charge transport in dual gated bilayer graphene with Corbino geometry Jun Yan and Michael S. Fuhrer Nano Letters 10, 4521 (2010). available online or download PDF
64.	Controlled growth, patterning and placement of carbon nanotube thin films V.K. Sangwan, V.W. Ballarotto, D.R. Hines, M.S. Fuhrer, E.D. Williams Solid State Electronics 54, 1204 (2010). available online or download PDF
63.	Optimizing Transistor Performance of Percolating Carbon Nanotube Networks V. K. Sangwan, A. Behnam, V. W. Ballarotto, M. S. Fuhrer, A. Ural, E. D. Williams Applied Physics Letters 97, 043111 (2010). available online or download PDF or arXiv:1004.4009
62.	Tunable Kondo Effect in Graphene with Defects Jian-Hao Chen, Liang Li, W. G. Cullen, E. D. Williams, and M. S. Fuhrer Nature Physics 7, 535 (2011). available online or arXiv:1004.3373 see also: Correspondence: Origin of logarithmic resistance correction in graphene Johannes Jobst & Heiko B. Weber Nature Physics 8, 352 (2012). available online Correspondence: Reply to "Origin of logarithmic resistance correction in graphene" Jian-Hao Chen, Liang Li, William G. Cullen, Ellen D. Williams & Michael S. Fuhrer Nature Physics 8, 353 (2012). available online
61.	Charged impurity scattering in bilayer graphene Shudong Xiao, Jian-Hao Chen, Shaffique Adam, Ellen D. Williams and Michael S. Fuhrer Physical Review B Rapid Communications 82 041406(R) (2010). available online or download PDF
60.	Solution-processed single walled carbon nanotube electrodes for organic thin-film transistors Adrian Southard, Vinod Sangwan, Jeremy Cheng, Ellen D. Williams and Michael S. Fuhrer Organic Electronics 10, 1556 (2009). available online or download PDF
59.	Defect scattering in graphene Jian-Hao Chen, W. G. Cullen, C. Jang, M. S. Fuhrer, E. D. Williams Physical Review Letters 102, 236805 (2009) (download PDF) or (arxiv:0903.2602)
58.	Frequency-dependent complex conductivity of an organic thin-film transistor D. R. Lenski, A. Southard, M. S. Fuhrer Applied Physics Letters 94, 232103 (2009) (download PDF) or (arxiv:0902.4721)
57.	Facile fabrication of suspended as-grown carbon nanotube devices V. K. Sangwan, V. W. Ballarotto, M. S. Fuhrer, and E. D. Williams Applied Physics Letters 93, 113112 (2008). (download PDF)
56.	Tuning the effective fine structure constant in graphene: opposing effects of dielectric screening on short- and long-range potential scattering C. Jang, S. Adam, J.-H. Chen, E. D. Williams, S. Das Sarma, M. S. Fuhrer Physical Review Letters 101, 146805 (2008) (download PDF) or (arXiv:0805.3780)
55.	Massless and massive particle-in-a-box states in single-and bi-layer graphene Sungjae Cho and Michael S. Fuhrer Nano Research 4, 385 (2011) available online or arXiv:0901.4157 or download PDF
54.	Density inhomogeneity driven percolation metal-insulator transition and dimensional crossover in graphene nanoribbons S. Adam, S. Cho, M. S. Fuhrer, S. Das Sarma Physical Review Letters 101, 046404 (2008). (download PDF) or (arXiv:0804.2253)
53.	Microwave Rectification by a Carbon Nanotube Schottky Diode Enrique Cobas and Michael S. Fuhrer Applied Physics Letters 93, 043120 (2008). (download PDF) or (arXiv:0805.1899)
51.	Optical measurement of thermal transport in suspended carbon nanotubes I-Kai Hsu, Rajay Kumar, Adam Bushmaker, Stephen B. Cronin, Michael T. Pettes, Li Shi, Todd Brintlinger, Michael S. Fuhrer, and John Cumings Applied Physics Letters 92, 063119 (2008). (download PDF)
50.	A Versatile Biomolecular Charge-Based Sensor Using Oxide-Gated Carbon Nanotube Transistor Arrays H. Pandana, K. H. Aschenbach, D. R. Lenski, M. S. Fuhrer, J. Khan, R. D. Gomez, IEEE Sensors Journal 8, 655 (2008). (download PDF)
49.	Poly(3-hexylthiophene) thin-film transistors with variable polymer dielectrics for transfer-printed flexible electronics D. R. Hines, A. Southard, and M. S. Fuhrer Journal of Applied Physics 104, 024510 (2008). (download PDF)
48.	Origins of 1/f noise in individual semiconducting carbon nanotube field-effect transistors David Tobias, Masa Ishigami, Alexander Tselev, Paola Barbara, Ellen D. Williams, Christopher J. Lobb, and Michael S. Fuhrer Physical Review B Brief Reports 77, 033407 (2008). (download PDF)
47.	Intrinsic and Extrinsic Performance Limits of Graphene Devices on SiO₂J. H. Chen, C. Jang, S. Xiao, M. Ishigami, M. S. Fuhrer Nature Nanotechnology 3, 206 - 209 (2008). (Nature Nanotechnology version) or (arXiv:0711.3646) Press coverage of this article: "Is Graphene the New Silicon?" NSF Press Release, March 27, 2008. "Carbon could enable fastest chips" by Colin Johnson, in EE Times, published online 25 March 2005. "Physicists Show Electrons Can Travel More Than 100 Times Faster in Graphene" UMD Newsdesk release, March 24, 2008. [see also stories at slashdot.org, tomshardware.com, softpedia.com, Scientific American Community, etc.]
46.	Charged Impurity Scattering in Graphene J. H. Chen, C. Jang, S. Adam, M. S. Fuhrer, E. D. Williams, and M. Ishigami Nature Physics 4, 377 (2008). (Nature Physics version) or (arXiv:0708.2408)
45.	Printed Graphene Circuits Jian-Hao Chen, Masa Ishigami, Chaun Jang, Daniel R. Hines, Michael S. Fuhrer, and Ellen D. Williams Advanced Materials 19, 3623 (2007). (available online at Advanced Materials)
44.	Gate-tunable Graphene Spin Valve Sungjae Cho, Yung-Fu Chen and Michael S. Fuhrer Applied Physics Letters 91, 123105 (2007). (APL version) or (arXiv:0706.1597)
43.	Charge Transport and Inhomogeneity near the Minimum Conductivity Point in Graphene Sungjae Cho and Michael S. Fuhrer Physical Review B Rapid Communications 77, 084102(R) (2008). (download PDF) or (arXiv:0705.3239)
42.	Atomic Structure of Graphene on SiO₂ Masa Ishigami, J. H. Chen, W. G. Cullen, M. S. Fuhrer, and E. D. Williams Nano Letters 7, 1643 (2007). (download PDF) Press coverage of this article: "Clean Up on Graphene" in Editor's Choice, Science, 15 June 2007. "Graphene: What lies beneath" by Jessica Thomas, in Nature Nanotechnology, published online 25 May 2007.
41.	Transmission line impedance of carbon nanotube thin films for chemical sensing G. Esen, M. S. Fuhrer, M. Ishigami, and E. D. Williams Applied Physics Letters 90, 123510 (2007). (download PDF)
40.	Realization and electrical characterization of ultrathin crystals of layered transition-metal dichalcogenides Anthony Ayari, Enrique Cobas, Ololade Ogundadegbe, and Michael S. Fuhrer Journal of Applied Physics 101, 014507 (2007). (download PDF)
39.	Hooge's Constant of Carbon Nanotube Field Effect Transistors Masa Ishigami, J.H. Chen, E.D. Williams, D. Tobias, Y.-F. Chen, M.S. Fuhrer Applied Physics Letters 88, 203116 (2006). (download PDF)
38.	Tuning from Thermionic Emission to Ohmic Tunnel Contacts via Doping in Schottky-Barrier Nanotube Transistors Y.-F. Chen and M. S. Fuhrer Nano Letters 6, 2158 (2006). (download PDF)
37.	Temperature Control of Electromigration to form Gold Nanogap Junctions G. Esen and M.S. Fuhrer Applied Physics Letters 87 263101 (2005). (download PDF)
36.	Four-point resistance of individual single-wall carbon nanotubes B. Gao, Y.F. Chen, M.S. Fuhrer, D.C. Glattli, A. Bachtold Physical Review Letters 95, 196802 (2005). (download PDF) or http://arxiv.org/abs/cond-mat/0505041
35.	Electric Field-Dependent Charge-Carrier Velocity in Semiconducting Carbon Nanotubes Yung-Fu Chen, M. S. Fuhrer Phys. Rev. Lett. 95, 236803 (2005). (download PDF) or http://arxiv.org/abs/cond-mat/0510158
34.	Bulk vortex matter in Bi2Sr2CaCu2O8+delta using Corbino disk contacts Y. M. Wang, M. S. Fuhrer, A. Zettl, S. Nagashima, K. Oka, and Y. Nishihara Physical Review B 71, 132507 (2005). (download PDF)
33.	A photolithographic process for fabrication of devices with isolated single-walled carbon nanotubes A. Tselev, K. Hatton, M. S. Fuhrer, M. Paranjape and P. Barbara Nanotechnology 15, 1475-1478 (2004). (link to paper on IoP website)
32.	Nanotransfer Printing of Organic and Carbon Nanotube Thin-Film Transistors on Plastic Substrates D. R. Hines, S. Mezhenny, M. Breban, E. D. Williams, V. W. Ballarotto, G. Esen, A. Southard and M.S. Fuhrer Applied Physics Letters 86, 163101 (2005). (download PDF) or http://arxiv.org/abs/cond-mat/0503463
31.	Near-perfect conduction through a ferrocene-based molecular wire Stephanie A. Getty, Chaiwat Engtrakul, Lixin Wang, Rui Liu, San-Huang Ke, Harold U. Baranger, Weitao Yang, Michael. S. Fuhrer, Lawrence R. Sita Physical Review B Rapid Communications 71, 241401 (2005). (download PDF) or cond-mat/0409433 Press coverage of this article: "Molecular Electronics: Back under control," by Mark A. Reed, in Nature Materials, May 2004.
29.	High-Performance Carbon Nanotube Transistors on SrTiO₃/Si Substrates B. M. Kim, T. Brintlinger, E. Cobas, M. S. Fuhrer, Haimei Zheng, Z. Yu, R. Droopad, J. Ramdani, K. Eisenbeiser Applied Physics Letters 84, 1946 (2004). (download PDF)
28.	Extraordinary Mobility in Semiconducting Carbon Nanotubes T. Dürkop, S. A. Getty, Enrique Cobas, and M. S. Fuhrer Nano Letters 4, 35 (2004). (download PDF) Press coverage of this article: "Nanotubes Prove the Best Semiconductors," in Research & Developments, Sensors magazine, February 2004. Audio: "Semiconducting Nanotubes," on Science Update, January 28, 2004. "Nanotubes break semiconducting record," on CNET news.com, December 19, 2003. "Chipping at the limits of chips," by James M. Pethokoukis in Next News December 5, 2003, on USNews.com. "Study: Carbon nanotubes make the best semiconductors," by Tom Krazit, IDG News Service, December 4, 2003 on InfoWorld.com.
27.	Rotational actuators based on carbon nanotubes A. M. Fennimore, T. D. Yuzvinsky, Wei-Qiang Han, M. S. Fuhrer, J. Cumings, A. Zettl Nature 424, 408 (2003). (download PDF)
26.	Rapid Imaging of Nanotubes on Insulating Substrates T. Brintlinger, Yung-Fu Chen, T. Dürkop, Enrique Cobas, M. S. Fuhrer, John D. Barry, and John Melngailis Applied Physics Letters 81, 2454 (2002). (download PDF)
25.	High-Mobility Nanotube Transistor Memory M. S. Fuhrer, B. M. Kim, T. Dürkop, and T. Brintlinger Nano Letters 2, 755 (2002). (download PDF) Press coverage of this article: "A Little Bit of Memory," appearing in Editor's Choice: Highlights of the Recent Literature, Science, June 21, 2002.
23.	Size effect on 3D-2D vortex phase transition in Bi₂Sr₂CaCu₂O₈Y. M. Wang, M. S. Fuhrer, A. Zettl Physical Review Letters 86, 3626 (2001). (download PDF)
22.	Scanned Probe Microscopy of Electronic Transport in Carbon Nanotubes A. Bachtold, M. S. Fuhrer, S. Plyasunov, M. Forero, Erik H. Anderson, A. Zettl, Paul L. McEuen Physical Review Letters 84, 6082 (2000). (download PDF)
21.	Crossed Nanotube Junctions M. S. Fuhrer, J. Nygård, L. Shih, M. Forero, Young-Gui Yoon, M. S. C. Mazzoni, Hyoung Joon Choi, Jisoon Ihm, Steven G. Louie, A. Zettl and Paul L. McEuen Science 288, 494 (2000). (download PDF)
20.	1/f Noise in carbon nanotubes P. G. Collins, M. S. Fuhrer and A. Zettl Applied Physics Letters 76, 894 (2000). (download PDF)
19.	Transport through crossed nanotubes M. S. Fuhrer, A. K. L. Lim, L. Shih, U. Varadarajan, A. Zettl, and P. L. McEuen Physica E 6, 868 (2000). (download PDF)
18.	Nonlinear transport and localization in single-walled carbon nanotubes M. S. Fuhrer, W. Holmes, P. L. Richards, P. Delaney, S. G. Louie and A. Zettl Synthetic Metals 103, 2529 (1999). (download PDF)
17.	Localization in single walled carbon nanotubes M. S. Fuhrer, V. H. Crespi, M. L. Cohen and A. Zettl Solid State Communications 109, 105 (1999). (download PDF)
16.	Carbon isotope effect in Rb₃C₆₀M. S. Fuhrer, V. Crespi, M. L. Cohen and A. Zettl Physical Review Letters 83, 404 (1999). (download PDF)
15.	Fluctuational Ettingshausen effect in single crystals of YBa₂Cu₃O_7-dL. Lu, Y. X. Jia, M. S. Fuhrer, and A. Zettl Physica C 282, 1547 (1997). (download PDF)
14.	Carbon isotope effect in single-crystal Rb₃C₆₀M. S. Fuhrer, K. Cherrey and A. Zettl Physica C 282, 1917 (1997). (download PDF)
13.	Josephson vortex lattice melting in Bi₂Sr₂CaCu₂O₈M. S. Fuhrer, K. Ino, K. Oka, Y. Nishihara and A. Zettl Physica C 282, 2041 (1997). (download PDF)
12.	Observation of Josephson vortex lattice melting in a highly anisotropic superconductor M. S. Fuhrer, K. Ino, K. Oka, Y. Nishihara and A. Zettl Solid State Comm. 101, 841 (1997). (download PDF)
11.	Investigation of the absorption edge of C₆₀ fullerite C. Hartmann, M. Zigone, G. Martinez, E. L. Shirley, L. X. Benedict, S. G. Louie, M. S. Fuhrer and A. Zettl Phys. Rev. B 52, R5550 (1995). (download PDF)
10.	Universal form of the Hall coefficient in K- and Rb-doped single-crystal C₆₀ L. Lu, V. H. Crespi, M. S. Fuhrer, A. Zettl and M. L. Cohen Phys. Rev. Lett. 74, 1637 (1995). (download PDF)
9.	The electrodynamic response of K₃C₆₀ and Rb₃C₆₀ single crystals L. Degiorgi, G. Briceno, M. S. Fuhrer, A. Zettl, P. Wachter and E. J. Nicol Synthetic Metals 70, 1325-1327 (1995). (download PDF)
8.	Electrical-transport measurements of KC₆₀J. Hone, M. S. Fuhrer, K. Khazeni and A. Zettl Phys. Rev. B 52, R8700 (1995). (download PDF)
7.	Temperature dependent resistivity in Rb₃C₆₀: constant volume versus constant pressure W. A. Vareka, M. S. Fuhrer and A. Zettl Physica C 235-240, 2507 (1994).
6.	Alkali-metal isotope effect in Rb₃C₆₀B. Burk, V. H. Crespi, M. S. Fuhrer, A. Zettl and M. L. Cohen Physica C 235-240, 2493 (1994).
5.	Thermal conductivity of Bi₂Sr₂CaCu₂O₈ in the mixed state G. Briceno, M. S. Fuhrer and A. Zettl Physica C 235-240, 1505 (1994).
4.	C₆₀ intercalated graphite: predictions and experiments M. S. Fuhrer, J. G. Hou, X.-D. Xiang and A. Zettl Solid State Comm. 90, 357 (1994).
3.	Normal-state transport properties of fullerene superconductors A. Zettl, X.-D. Xiang, J. G. Hou, W. A. Vareka and M. S. Fuhrer J. Superconductivity 7, 639 (1994).
2.	Optical measurements of the superconducting gap in single-crystal K₃C₆₀ and Rb₃C₆₀L. Degiorgi, G. Briceno, M. S. Fuhrer, A. Zettl and P. Wachter Nature 369, 541 (1994). available online
1.	Structural properties of vapor-grown C₆₀ crystals B. Morosin, X.-D. Xiang, M. S. Fuhrer and A. Zettl Appl. Phys. A 57, 171 (1993). available online or download PDF

C18.	Measuring the Thickness of Few-Layer Graphene by Laser Scanning Microscopy Behnood G. Ghamsari, Jacob Tosado, A. P. Zhuravel, Mahito Yamamoto, Daniel R. Lenski, Jinglei Ping, Michael S. Fuhrer, and Steven M. Anlage Proceedings of Conference on Precision Electromagnetic Measurements (CPEM), 2012, p. 456-457 (download PDF)
C17.	Diffusive Charge Transport in Graphene on SiO₂J.-H. Chen, C. Jang, M. Ishigami, S. Xiao, E. D. Williams, and M. S. Fuhrer Proceedings of Graphene Week 2008 Conference Solid State Communications 149, 1080 (2009). (arXiv:0812.2504) or (download PDF)
C16.	Detection of nucleic acid hybridization via oxide-gated carbon nanotube field-effect transistors Konrad H. Aschenbach, Herman Pandana, Jookyung Lee, Michael Fuhrer, Dan Lenski, R. D. Gomez, and Javed Khan Proc. SPIE 6959, 69590W (2008). (link to paper on publisher's website)
C15.	Transfer printing as a method for fabricating hybrid devices on flexible substrates D. R. Hines, A. E. Southard, A. Tunnell, V. Sangwan, T. Moore, J.-H. Chen, M. S. Fuhrer, and E. D. Williams Proceedings of SPIE -- Volume 6658, Organic Field-Effect Transistors VI (Zhenan Bao, David J. Gundlach, Editors) 66580Y (2007). (link to paper on publisher's website)
C14.	Four-terminal measurements of SWNTs using MWNTs as voltage electrodes B. Gao, Y. F. Chen, M. S. Fuhrer, D. C. Glattli, A. Bachtold Physica Status Solidi B 243, 3403 (2006). (download PDF)
C13.	Patterned Carbon Nanotube Thin-Film Transistors with Transfer-Print Assembly V. K. Sangwan, D. R. Hines, V. W. Ballarotto, G. Esen, M. S. Fuhrer and E. D. Williams Materials Research Society Symposium Proceedings 963, Q10-57 (2007). (download PDF)
C12.	Current-carrying capacity of semiconducting carbon nanotubes Yung-Fu Chen and Michael S. Fuhrer Physica Status Solidi B 243, 3403 (2006). (download PDF)
C11.	Electrodes for Carbon Nanotube Devices by Focused Electron Beam Induced Deposition of Gold T. Brintlinger, J. Melngailis, and M. S. Fuhrer, I. Utke T. Bret, A. Perentes, and P. Hoffmann M. Abourida and P. Doppelt Journal of Vacuum Science and Technology B 23, 3174 (2005). (download PDF)
C10.	Formation of Molecular-Scale Gold Nanogap Junctions via Controlled Electromigration G. Esen, S.A. Getty, and M. S. Fuhrer in Electronic Properties of Novel Nanostructures, pp. 534-537, H. Kuzmany, J. Fink, M. Mehring, and S. Roth, Editors (AIP Conference Proceedings, New York, 2005). (download PDF)
C9.	Gate-Field-Induced Schottky Barrier Lowering in a Nanotube Field-Effect Transistor T. Brintlinger, B.M. Kim, E. Cobas, and M. S. Fuhrer in Electronic Properties of Synthetic Nanostructures, pp. 520-523, H. Kuzmany, J. Fink, M. Mehring, and S. Roth, Editors (AIP Conference Proceedings, New York, 2004). (download PDF)
C8.	High-Mobility Semiconducting Nanotubes T. Dürkop, E. Cobas, and M. S. Fuhrer in Molecular Nanostructures, pp. 524-7, H. Kuzmany, J. Fink, M. Mehring, and S. Roth, Editors (AIP Conference Proceedings, New York, 2003). (download PDF)
C7.	Single-Electron Detection and Memory Using a Single Carbon Nanotube Defect B.M. Kim, Y.F. Chen, and M.S. Fuhrer in Fullerenes Volume 12: The Exciting World of Nanocages and Nanotubes, pp. 541-548, P. Kamat, D. Guldi, and K. Kadish, Editors (ECS Conference Proceedings, 2002). (download PDF)
C6.	Nanotubes are High Mobility Semiconductors T. Dürkop, T. Brintlinger, and M. S. Fuhrer in Structural and Electronic Properties of Molecular Nanostructures, pp. 242-6, H. Kuzmany, J. Fink, M. Mehring, and S. Roth, Editors (AIP Conference Proceedings, New York, 2002). (download PDF)
C5.	Nanotube Nanoelectronics P. L. McEuen, J. Park, A. Bachtold, M. Woodside, M. S. Fuhrer, M. Bockrath, L. Shi, A. Majumdar, P. Kim in Device Research Conference Digest, pp. 107-110 (IEEE; Piscataway, NJ, USA, 2001).
C4.	Ballistic Transport in Semiconducting Carbon Nanotubes M. S. Fuhrer, M. Forero, A. Zettl, P. L. McEuen in Electronic Properties of Molecular Nanostructures, pp. 401-4, H. Kuzmany, J. Fink, M. Mehring, and S. Roth, Editors (AIP Conference Proceedings, New York, 2001). (link to paper on AIP website)
C3.	Luttinger liquid behavior in metallic carbon nanotubes R. Egger, A. Bachtold, M. S. Fuhrer, M. Bockrath, D. H. Cobden and P. L. McEuen in Interacting Electrons in Nanostructures (eds. R. Haug and H. Schoeller) pp. 125-148 (Springer, Berlin, 2001).
C2.	Ballistic Transport in Semiconducting Carbon Nanotubes M. S. Fuhrer, U. Varadarajan, W. Holmes, P. L. Richards, P. Delaney, S. G. Louie, and A. Zettl in Progress in Molecular Nanostructures, H. Kuzmany, J. Fink, M. Mehring, and S. Roth, eds., pp. 69-73 (AIP Conference Proceedings, New York, 1998).
C1.	Optical investigation of the electron-phonon interaction in C₆₀ fullerites C. Hartmann, M. Zigone, G. Martinez, E. L. Shirley, L. X. Benedict, S. G. Louie, M. S. Fuhrer and A. Zettl Proceedings of 22nd International Conference on the Physics of Semiconductors , (ed. D. J. Lockwoods) pp. 2105 (World Scientific, Vancouver, BC, Canada, 1994).

87.	Determination of the Optical Index for Few-Layer Graphene by Reflectivity Spectroscopy Behnood G. Ghamsari, Jacob Tosado, Mahito Yamamoto, Michael S. Fuhrer, Steven M. Anlage ArXiv:1210.0575
81.	Princess and the Pea at the nanoscale: Wrinkling and unbinding of graphene on nanoparticles Mahito Yamamoto, Olivier Pierre-Louis, Jia Huang, Michael S. Fuhrer, T. L. Einstein, William G. Cullen to appear in Physical Review X arXiv:1201.5667

B1.	Luttinger liquid behavior in metallic carbon nanotubes R. Egger, A. Bachtold, M. S. Fuhrer, M. Bockrath, D. Cobden, and P. L. McEuen in Interacting Electrons in Nanostructures, R. Haug and H. Schoeller eds. (Springer 2001). (arXiv:cond-mat/0008008)
B2.	Single-Walled Carbon Nanotube Electronics M. S. Fuhrer in Advanced Semiconductor and Organic Nano-Techniques, H. Morkoc, Ed. (Academic Press, New York, 2003). (download introduction in PDF) (visit book web page)

	Researchers demonstrate and explain surface conduction in a topological insulator, Phys.org July 12, 2012
	Dual-gated bilayer graphene hot electron bolometer: UMD Scientists Create Faster, More Sensitive Photodetector by Tricking Graphene, UMD newsdesk Electrons feel the heat in new graphene photodetector, by Belle Dumé, PhysicsWorld.com, June 18, 2012 'Hot electron' bolometer detects in the infrared, by Belle Dumé, nanotechweb.com, June 15, 2012 Graphene Used to Make Sensitive Photon Detector, by Yvonne Carts-Powell, Optics & Photonics News [original paper is J. Yan, et al. Nature Nanotechnology 7, 472 (2012)]
	quoted in "Delivering the future with graphene," by Gus G. Sentementes, in The Baltimore Sun, March 10, 2012.
	Interview on Maryland Morning with Sheilah Kast 4/20/11
	Kondo Physics in Graphene: reported at PhysLink.com, Science Daily, etc.
	Is Graphene the New Silicon? NSF Press Release, March 27, 2008.
	Carbon could enable fastest chips by Colin Johnson, in EE Times, published online 25 March 2008.
	Physicists Show Electrons Can Travel More Than 100 Times Faster in Graphene UMD Newsdesk release, March 24, 2008. [see also stories at slashdot.org, tomshardware.com, softpedia.com, Scientific American Community, etc.]
	Clean Up on Graphene in Editor's Choice, Science, 15 June 2007.
	Graphene: What lies beneath by Jessica Thomas, in Nature Nanotechnology, published online 25 May 2007.
	Nanotech dazzles at College Park by Steve Berberich, in The Gazette (community newspaper in Maryland), Thursday, May 25, 2006.
	Video: Nanotube research in the Fuhrer Lab was featured on the Nightly Business Report on PBS, November 23, 2005. Watch the video here.
	University of Maryland gets an 'A' for its Nanotechnology Research by Ellen McCarthy, in The Download, Washington Post, Thursday, July 7, 2005.
	Molecular Electronics: Back under control by Mark A. Reed, in Nature Materials, May 2004.
	Nanotubes Prove the Best Semiconductors in Research & Developments, Sensors magazine, February 2004.
	Audio: Semiconducting Nanotubes on Science Update, January 28, 2004.
	Nanotubes break semiconducting record on CNET news.com, December 19, 2003
	Chipping at the limits of chips by James M. Pethokoukis in Next News December 5, 2003, on USNews.com
	Study: Carbon nanotubes make the best semiconductors by Tom Krazit, IDG News Service, December 4, 2003 on InfoWorld.com.
	A Little Bit of Memory in Editor's Choice: Highlights of the Recent Literature, Science, June 21, 2002. (download PDF Format)

	(If you re-use material from the talks below, please credit Michael S. Fuhrer, University of Maryland)
	Introductory Slides on Graphene Electronic Structure (Version 1) (Version 2)
	*Diffusive Charge Transport in Graphene* Talk at KITP Graphene Week, April 13, 2009

	Introductory Slides on Carbon Nanotube Electronic Structure
	*Nanotube Nanoelectronics* Colloquium at University of Maryland, February 2004
	*Conductance in One Dimension: Nanotubes and Molecules* Condensed Matter Seminar at University of Maryland, September 2004

	Tobias Durkop (Ph.D. May 2004) Electronic Properties of Carbon Nanotubes studied in Field-Effect Transistor Geometries (download PDF)