Issue 4, 2015

Molecular wires – impact of π-conjugation and implementation of molecular bottlenecks

Abstract

In this review we highlight recent progress in the field of photochemically and thermally induced electron transport through molecular bridges as integrative parts of electron donor–bridge–acceptor conjugates. The major emphasis is hereby on the design and the modular composition of the bridges. To this end, we will demonstrate that control over attenuation factors and reorganization energies, on one hand, as well as electronic and electron–vibration couplings, on the other hand, enables tuning electron transport over distances as short as 3.5 Å and as large as 50 Å by up to nine orders of magnitude. In terms of electron transport, the maximum extreme is given by carbon-bridged oligo-p-phenylenevinylenes of different lengths, while a zinc tetraphenylporphyrin free base tetraphenylporphyrin dyad constitutes the minimum extreme.

Graphical abstract: Molecular wires – impact of π-conjugation and implementation of molecular bottlenecks

Article information

Article type
Review Article
Submitted
30 Jul 2014
First published
15 Oct 2014

Chem. Soc. Rev., 2015,44, 988-998

Author version available

Molecular wires – impact of π-conjugation and implementation of molecular bottlenecks

C. Schubert, J. T. Margraf, T. Clark and D. M. Guldi, Chem. Soc. Rev., 2015, 44, 988 DOI: 10.1039/C4CS00262H

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