Highly stable tetrathiafulvalene radical dimers in [3]catenanes

Spruell, J.M. et al. (2010) Highly stable tetrathiafulvalene radical dimers in [3]catenanes. Nature Chemistry, 2(10), pp. 870-879. (doi: 10.1038/nchem.749)

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Two [3]catenane `molecular flasks' have been designed to create stabilized, redox-controlled tetrathiafulvalene (TTF) dimers, enabling their spectrophotometric and structural properties to be probed in detail. The mechanically interlocked framework of the [3]catenanes creates the ideal arrangement and ultrahigh local concentration for the encircled TTF units to form stable dimers associated with their discrete oxidation states. These dimerization events represent an affinity umpolung, wherein the inversion in electronic affinity replaces the traditional TTF-bipyridinium interaction, which is overridden by stabilizing mixed-valence (TTF)(2)(center dot+) and radical-cation (TTF(center dot+))(2) states inside the `molecular flasks.' The experimental data, collected in the solid state as well as in solution under ambient conditions, together with supporting quantum mechanical calculations, are consistent with the formation of stabilized paramagnetic mixed-valence dimers, and then diamagnetic radical-cation dimers following subsequent one-electron oxidations of the [3]catenanes.

Item Type:Articles
Glasgow Author(s) Enlighten ID:Forgan, Professor Ross
Authors: Spruell, J.M., Coskun, A., Friedman, D.C., Forgan, R.S., Sarjeant, A.A., Trabolsi, A., Fahrenbach, A.C., Barin, G., Paxton, W.F., Dey, S.K., Olson, M.A., Benitez, D., Tkatchouk, E., Colvin, M.T., Carmielli, R., Caldwell, S.T., Rosair, G.M., Hewage, S.G., Duclairoir, F., Seymour, J.L., Slawin, A.M.Z., Goddard, W.A., Wasielewski, M.R., Cooke, G., and Stoddart, J.F.
College/School:College of Science and Engineering > School of Chemistry
Journal Name:Nature Chemistry
ISSN (Online):1755-4349
Published Online:25 July 2010

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