top of page
< Back

Molecular Transport Junctions:  Propensity Rules for Inelastic Electron Tunneling Spectra

Author(s):

Alessandro Troisi, Mark A. Ratner

Journal:

Nano Letters

Year:

2006

Volume:

6

Pages

1784–1788

DOI:

10.1021/nl0609394

Abstract:

We develop a series of propensity rules for interpreting inelastic electron tunneling (IET) spectra of single-molecule transport junctions. IETS has no selection rules, such as those seen in optical, infrared, and Raman spectra, because IETS features arise not from the field−dipole interaction characterizing these other spectroscopies but from vibronic modification of the electronic levels. Expansion of the Landauer−Imry formula in Taylor series in molecular normal coordinates gives a convenient, accurate perturbation-type formula for calculating both frequency and intensity of the IETS spectrum. Expansion in a Dyson-like form permits derivation of propensity rules, both symmetry-based and pathway-deduced, allowing correlation of structure and coupling geometry with the IETS spectrum. These propensity rules work very well for the calculated spectrum of five typical molecular bridges.

bottom of page