Title :
Electronic Transport in Molecular Self-Assembled Monolayer Devices
Author :
Wang, Wenyong ; Lee, Takhee ; Reed, Mark A.
Author_Institution :
Dept. of Phys., Yale Univ., New Haven, CT, USA
Abstract :
A review on the mechanisms and characterization methods of electronic transport through self-assembled monolayers (SAMs) is presented. Using SAMs of alkanethiols in a nanometer-scale-device structure, tunneling is unambiguously demonstrated as the main intrinsic conduction mechanism for defect-free large bandgap SAMs, exhibiting well-known temperature and length dependencies. In-elastic electron tunneling spectroscopy exhibits clear vibrational modes of the molecules in the device, presenting direct evidence of the presence of molecules in the device.
Keywords :
molecular electronics; monolayers; nanoelectronics; scanning tunnelling spectroscopy; self-assembly; transport processes; tunnelling; vibrational modes; alkanethiols; electron tunneling spectroscopy; electronic transport; intrinsic conduction mechanism; molecular electronics; molecular self-assembled monolayer devices; nanometerscale device; vibrational modes; Bonding; Fabrication; Gold; Materials science and technology; Physics; Raman scattering; Self-assembly; Spectroscopy; Surface topography; Tunneling; Molecular electronics; spectroscopy; tunneling;
Journal_Title :
Proceedings of the IEEE
DOI :
10.1109/JPROC.2005.853544
