Publications
High-field terahertz response of graphene
M. J. Paul, Y. C. Chang, Z. J. Thompson, A. Stickel, J. Wardini, H. Choi, E. D. Minot, T. B. Norris and Yun-Shik Lee
New Journal of Physics 15 085019 (2013), pdf
Scalable graphene field-effect sensors for specific protein detection
G. Saltzgaber, P. Wojcik, T. Sharf, M. R. Leyden,
J. L. Wardini, C. A. Heist, A. A. Adenuga, V. T. Remcho & E. D. Minot
Nanotechnology 24 355502 (2013), pdf
Exploring flatland: AFM of mechanical and electrical properties of graphene, MoS2 and other low-dimensional materials
S. Bertolazzi, J. Brivio, A. Radenovic, A. Kis, H. Wilson, L. Prisbrey, E. D. Minot, A. Tselev, M. Philips, M. Viani, D. Walters & R. Proksch
Microscopy and Analysis 27 (April 2013), pdf
Origins of Charge Noise in Carbon Nanotube Field-Effect Transistor Biosensors
T. Sharf, J. W. Kevek, T. DeBorde, J. L. Wardini, & E. D. Minot
Nano Letters 12, 6380 (2012), pdf
Terahertz imaging of inhomogeneous electrodynamics in single-layer graphene embedded in dielectrics
M. J. Paul, J. L. Tomaino, J. W. Kevek, T. DeBorde, Z. J. Thompson, E. D. Minot & Yun-Shik Lee
Applied Physics Letters 101, 091109 (2012), pdf
Transfer-Printing of As-Fabricated Carbon Nanotube Devices onto Various Substrates
Q.N. Thanh, H. Jeong, J. Kim, J.W. Kevek, Y.H. Ahn, S. Lee, E.D. Minot, J.Y. Park
Advanced Materials 24, 4499–4504 (2012), pdf
Electrical Characteristics of Carbon Nanotube Devices Prepared with Single Oxidative Point Defects
L. Prisbrey, D. Roundy, K. Blank, L. S. Fifield & E. D. Minot
J. Phys. Chem. C 116, 1961 (2012), pdf
Increasing the detection speed of an all-electronic real-time biosensor
M.R. Leyden, R.J. Messinger C. Schuman, T. Sharf, V.T. Remcho, T.M. Squires & E.D. Minot
Lab on a Chip 12, 954 - 959 (2012), pdf
(SPIE newsroom, R&D Magazine, OSU Research Magazine).
Scanning Probe Techniques for Engineering Nanoelectronic Devices
L. Prisbrey, J.Y. Park, K. Blank, A. Moshar & E.D. Minot
Microscopy and Analysis 26, (April 2012), pdf.
Also an Application Note for Asylum Research (pdf).
A Spectrally-Tunable Photocurrent Microscope for
Characterizing Nanoelectronic Devices
T. DeBorde, J.W. Kevek, T. Sharf, J.L. Wardini & E.D. Minot
Proc. IEEE Nano 11, 382-386 (2011), pdf
Fabrication of low-noise carbon nanotube field-effect
transistor biosensors
T. Sharf, J.W. Kevek & E.D. Minot
Proc. IEEE Nano 11, 122-125 (2011), pdf
Controlling the Function of Carbon Nanotube Devices with Re-writable Charge Patterns
L. Prisbrey, T. DeBorde, J.Y. Park & E. D. Minot
Applied Physics Letters 99, 053125 (2011),
pdf
Terahertz spectroscopy of Ni-Ti alloy thin films
A. D. Jameson, J. W. Kevek, J. L. Tomaino, M. J. Paul, M.
Hemphill-Johnston, M. Koretsky, E. D. Minot & Y.S. Lee
Applied Physics Letters 98, 221111 (2011), pdf
Variable-Force Microscopy for Advanced Characterization of Horizontally-Aligned Carbon Nanotubes
A. A. Almaqwashi, J. W. Kevek, R. M. Burton, T. DeBorde & E. D. Minot
Nanotechnology 22 275717 (2011), pdf
Terahertz Imaging and Spectroscopy of Large-Area Single-Layer Graphene
J. L. Tomaino, A. D. Jameson, J. W. Kevek, M. J. Paul, A. M. van der Zande, R. A. Barton, P. L. McEuen, E. D. Minot & Y.S. Lee
Optics Express, 19, 141-146 (2011), (pdf), (supporting info)
Fabrication and Characterization of Carbon Nanotube Field-Effect Transistor Biosensors
M. R. Leyden, C. Schuman, T. Sharf, J.W. Kevek, V.T. Remcho & E.D. Minot
Proc. SPIE, 7779, 77790H (2010), (pdf)
Modeling the electrostatic signature of single enzyme activity
L. Prisbrey, G. Schneider & E. Minot
Journal of Physical Chemistry B, 114, 3330-3333 (2010), (pdf)
Identifying individual single-walled and double-walled carbon nanotubes by atomic force microscopy
T. DeBorde, M. Leyden, J. C. Joiner & E. D. Minot
Nano Letters, 8, 3568-3571 (2008), (pdf)
OSU Theses
Comparison of carbon nanotube and graphene field-effect transistor biosensors
Grant Saltzgaber, M.S., 2012 (pdf)
Fabrication and Characterization of a Label Free Graphene Field Effect Transistor Biosensor
Peter Wojcik, M.S., 2012 (pdf)
Carbon Nanotube Devices Engineered by Atomic Force Microscopy
Landon Prisbrey, Ph.D., 2011 (pdf).
Video of thesis defense presentation
Label-free Biosensing with Carbon Nanotube Transistors
Matthew R. Leyden, Ph.D., 2011 (pdf)
Publications before OSU
Identifying the mechanism of biosensing with carbon nanotube transistors
I. Heller, A. M. Janssens, J. Mannik, E. D. Minot, S. G. Lemay & C. Dekker
Nano Letters 8, 591 (2008).
Carbon nanotube biosensors: the critical role of the reference electrode
E. D. Minot, A. M. Janssens, I. Heller, H. A. Heering, C. Dekker & S. G. Lemay
Appl. Phys. Lett., 91 093507 (2007)
Single quantum dot nanowire LEDs
E. D. Minot, F. Kelkensberg, M. van Kouwen, J. A. van Dam, L. P. Kouwenhoven, V. Zwiller, M. T. Borgstrom, O. Wunnicke, M. A. Verheijen and E. P. A. M. Bakkers
Nano Letters 7, 367 (2007)
Measurement of the adhesion force between carbon nanotubes and a silicon substrate
J. D. Whittaker, E. D. Minot, D. M. Tanenbaum, P. L. McEuen & R. C. Davis
Nano Letters 6, 953-957 (2006)
Tuning the band structure of carbon nanotubes
Ethan Minot
PhD Thesis (2004), pdf
Determination of electron orbital magnetic moments in carbon nanotubes
E. D. Minot, Yuval Yaish, Vera Sazonova & Paul L. McEuen
Nature 428, 536 (2004)
Tuning Carbon Nanotube Band Gaps with Strain
E. D. Minot, Yuval Yaish, Vera Sazonova, Ji-Yong Park, Markus Brink, & Paul L. McEuen
Phys. Rev. Lett. 90, 156401 (2003)
Multiple Echoes, Multiple Quantum Coherence, and the Dipolar Field: Demonstrating the Significance of Higher Order Terms in the Equilibrium Density Matrix
E.D. Minot, P.T. Callaghan & N. Kaplan
Journal of Magnetic Resonance 140, 200-205 (1999)