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RESEARCH PRODUCT

Electronic Interactions in a New π-Extended Tetrathiafulvalene Dimer

Nazario MartínEric LevillainMartin R. BryceBeatriz M. IllescasEnrique OrtíIgor F. PerepichkaIgor F. PerepichkaRafael ViruelaMarta C. Díaz

subject

AnthracenesAnthraceneDimerOrganic Chemistrychemistry.chemical_elementStereoisomerism[CHIM.MATE]Chemical Sciences/Material chemistryGeneral ChemistryPhotochemistryElectrochemistryCopperCatalysisDelocalized electronchemistry.chemical_compoundCrystallographyModels ChemicalchemistryHeterocyclic CompoundsCovalent bondElectrochemistryElectronicsCyclic voltammetryDimerizationOxidation-ReductionTetrathiafulvalene

description

The first pi-extended tetrathiafulvalene (exTTF) dimer in which the two exTTF units are covalently connected by 1,3-dithiole rings has been obtained in a multistep synthetic procedure involving the Ullmann cross-coupling reaction by using copper(I) thiophene-2-carboxylate (CuTC). The electronic spectrum reveals a significant electronic interaction between the exTTF units. The electrochemical study carried out by cyclic voltammetry in solution and in thin-layer conditions, and the electrochemical simulation and spectroelectrochemical (SEC) measurements confirm the electronic communication and show that the oxidation of dimer 14 occurs as two consecutive 2 e(-) processes D(0)-D(0)-->D(2+)-D(0)-->D(2+)-D(2+). Theoretical calculations, performed at the B3P86/6-31G* level, confirm the experimental findings and predict that 14(2+) exists as a delocalized D(.+)-D(.+) species in the gas phase and as a localized D(2+)-D(0) species in solution (CH(3)CN or CH(2)Cl(2)). Oxidation of 14(2+) forms the tetracation 14(4+) which is constituted by two aromatic anthracene units bearing four aromatic, almost orthogonal 1,3-dithiolium cations.

yearjournalcountryeditionlanguage
2006-03-20Chemistry - A European Journal
https://doi.org/10.1002/chem.200501001