The dependence of the electronic coupling on energy gap and bridge conformation - Towards prediction of the distance dependence of electron transfer reactions
Journal article, 2009

The attenuation factor, β, for the distance dependence of electron exchange reactions is a sensitive function of the donor–bridge energy gap and bridge conformation. In this work the electronic coupling for electron and triplet excitation energy transfer has been investigated for five commonly used repeating bridge structures. The investigated bridge structures are OF (oligo fluorene), OP (oligo phenylene), OPE (oligo p-phenyleneethynylene), OPV (oligo phenylenevinylene), and OTP (oligo thiophene). Firstly, the impact of the donor–bridge energy gap was investigated by performing calculations with a variety of donors appended onto bridges that were kept in a planar conformation. This resulted in, to our knowledge, the first presented sets of bridge specific parameters to be inserted into the commonly used McConnell model. Secondly, since at experimental conditions large conformational flexibility is expected, a previously developed model that takes conformational disorder of the bridge into account has been applied to the investigated systems [M.P. Eng, T. Ljungdahl, J. Mårtensson, B. Albinsson, J. Phys. Chem. B 110 (2006) 6483]. This model is based on Boltzmann averaging and has been shown to describe the temperature dependence of the attenuation factor through OPE-bridges. Together, the parameters describing the donor–bridge energy gap dependence, for planar bridge structures, and the Boltzmann averaging procedure, describing the impact of rotational disorder, have the potential to a priori predict attenuation factors for electron and excitation energy transfer reactions through bridged donor–acceptor systems.

MOLECULAR-WIRE

PORPHYRIN DIMERS

ABSORPTION-SPECTRA

SOLAR-CELLS

SCALE LOGIC GATES

LIGHT-HARVESTING ARCHITECTURES

CHARGE

ACCEPTOR SYSTEMS

PHOTOSYNTHESIS

COMPLEXES

Author

Mattias P Eng

Imperial College London

Bo Albinsson

Chalmers, Chemical and Biological Engineering, Physical Chemistry

Chemical Physics

0301-0104 (ISSN)

Vol. 357 1-3 132-139

Subject Categories

Physical Chemistry

Theoretical Chemistry

DOI

10.1016/j.chemphys.2008.12.004

More information

Latest update

4/20/2018