J. Kong, B. J. LeRoy, S. G. Lemay, C. Dekker
Published 2005-02-21Version 1
We have developed a fabrication process for incorporating a gate electrode into suspended single-walled carbon nanotube structures for scanning tunneling spectroscopy studies. The nanotubes are synthesized by chemical vapor deposition directly on a metal surface. The high temperature ~800 C involved in the growth process poses challenging issues such as surface roughness and integrity of the structure which are addressed in this work. We demonstrate the effectiveness of the gate on the freestanding part of the nanotubes by performing tunneling spectroscopy that reveals Coulomb blockade diamonds. Our approach enables combined scanning tunneling microscopy and gated electron transport investigations of carbon nanotubes.
Comments: 4 pages, 3 figures, to appear in Applied Physics Letters
Journal: Appl. Phys. Lett. 86, 112106 (2005)
Networks of ABA and ABC stacked graphene on mica observed by scanning tunneling microscopy
Thermal Dissipation and Variability in Electrical Breakdown of Carbon Nanotube Devices
Scanning Tunneling Microscopy for Molecules: Manipulating Electrons and Photons by Varying Buffer Layer
