Charge Transport and Scaling in Molecular Wires
Author(s):
Amy Szuchmacher Blum, James G. Kushmerick, Steven K. Pollack, John C. Yang, Martin Moore, Jawad Naciri, Ranganathan Shashidhar, Banahalli R. Ratna
Journal:
The Journal of Physical Chemistry B
Year:
2004
Volume:
108
Pages
18124-18128
DOI:
10.1021/jp0480854
Abstract:
The scaling of conductance across metal−molecule−metal junctions consisting of self-assembled monolayers of dithiol molecular wire candidates is demonstrated through current−voltage measurements carried out by two experimental techniques. We show that scanning tunneling microscopy measurements on single molecules are correlated with crossed-wire measurements of ∼103 molecules. This implies that the conductance through a group of parallel molecules is a linear superposition of the individual molecular conductance. Our results also indicate that intermolecular charge hopping does not strongly contribute to charge transport in a self-assembled monolayer, an important factor for the design of future molecular-based devices.