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Making a Molecular Wire: Charge and Spin Transport Through Para-phenylene Oligomers

Overview
Journal J Am Chem Soc
Publisher American Chemical Society
Specialty Chemistry
Date 2004 Apr 29
PMID 15113229
Citations 37
Authors
Emily A Weiss
Michael J Ahrens
Louise E Sinks
Alexey V Gusev
Mark A Ratner
Michael R Wasielewski
Affiliations
Soon will be listed here.
Abstract

Functional molecular wires are essential for the development of molecular electronics. Charge transport through molecules occurs primarily by means of two mechanisms, coherent superexchange and incoherent charge hopping. Rates of charge transport through molecules in which superexchange dominates decrease approximately exponentially with distance, which precludes using these molecules as effective molecular wires. In contrast, charge transport rates through molecules in which incoherent charge hopping prevails should display nearly distance independent, wirelike behavior. We are now able to determine how each mechanism contributes to the overall charge transport characteristics of a donor-bridge-acceptor (D-B-A) system, where D = phenothiazine (PTZ), B = p-oligophenylene, and A = perylene-3,4:9,10-bis(dicarboximide) (PDI), by measuring the interaction between two unpaired spins within the system's charge separated state via magnetic field effects on the yield of radical pair and triplet recombination product.

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