Synthesis, Properties, and Theoretical Characterization of Largely π-Extended Tetrathiafulvalene Derivatives with Quinonoid Structures

Martı́n, Nazario; Sánchez, Luis; Seoane, Carlos; Ortı́, Enrique; Viruela, Pedro M.; Viruela, Rafael

doi:10.1021/jo9719416

Cited by 131 publications

(93 citation statements)

References 37 publications

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“…1 shows the BH&H/6-31G** energy-minimized structures of the complexes and selected distances. The recognizing units in both 1 and 2 show butterfly-shaped conformations, consistent with previously reported structures, [12][13][14] in which the …”

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confidence: 79%

Weighting non-covalent forces in the molecular recognition of C60. Relevance of concave–convex complementarity

et al. 2008

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The relative contributions of several weak intermolecular forces to the overall stability of the complexes formed between structurally related receptors and [60]fullerene are compared, revealing a discernible contribution from concave-convex complementarity.The construction of molecular receptors for fullerenes continues to be a very active area of research, with their purification from fullerite and the construction of self-organized electroactive nanostructures as main driving forces.1-11 To achieve these objectives, the formation of stable associates with fullerenes is a prerequisite. In this regard, the group of Kawase has recently coined the term ''concave-convex interactions '' 5-8 to denote the increase in non-covalent interactions between curved aromatic hosts and guests, and suggested these might play a distinct role in the stabilization of the complexes. A fair and quantitative comparison of the stability of the complexes formed between fullerenes and receptors based on flat or concave recognizing fragments would require a collection of receptors with enough structural similarity-that is, dissimilar only with regard to the recognizing units-to be studied under experimentally identical conditions. Herein, we investigate the relative contributions of p-p, van der Waals, electrostatic, and concave-convex interactions to the molecular recognition of C 60 by a series of related receptors.We have reported receptors that exploit the concave, electron-rich, aromatic surface of p-extended tetrathiafulvalene derivatives to associate [60]fullerene.9,10 Receptor 1 features 2-[9-(1,3-dithiol-2-ylidene)anthracen-10(9H)-ylidene]-1,3-dithiole (exTTF) as the recognizing element (Chart 1).9 Despite the lack of preorganization in its design, 1 forms stable associates with C 60 (see Table 1). Since a charge-transfer band is experimentally observed in the UV-Vis titrations (l max E 482 nm) of 1 against C 60 , up to four ''separate'' contributions to the stability of the complex can be envisaged: p-p aromatic interactions, van der Waals forces, electrostatic interactions, and concave-convex complementarity. With the aim of weighting those contributions separately, we designed and synthesized a collection of tweezer-like receptors, 1-4, in which the size, shape and electronic character of the recognizing motifs are selectively tuned. The solubility of receptors 1-4 at the concentrations employed in titration experiments (r1 mM) is sufficient to rule out solvophobic effects as a major factor in the stability of the complexes.As shown in Chart 1, receptors 1-4 consist of an isophthalic diester spacer to which two units of the corresponding recognizing moieties are attached. All the receptors were synthesized from the commercially available or previously reported methylene alcohols and isophthaloyl dichloride by standard condensation reactions in good to excellent yields, and unambiguously characterized.w Table 1 and are the average of at least two titration experiments (for details, see the Supplementary Informationw). Unfo...

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confidence: 79%

Weighting non-covalent forces in the molecular recognition of C60. Relevance of concave–convex complementarity

et al. 2008

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“…In stark contrast, the reductive range only reveals La 2 @C 80 reductions at −0.45, −1.73 and −2.23 V [29]. The redox potentials, as found for C 60 -exTTF, La@C 82 -exTTF and La 2 @C 80 -exTTF, reveal, in agreement with the data stemming from the corresponding references, namely C 60 [37], La@C 82 [40], La 2 @C 80 [41] and exTTF [32][33][34][35], only weak electronic interactions between the electron donors and electron acceptors in their ground state. Considering the exTTF centred oxidation and the lowest reduction of C 60 , La@C 82 and La 2 @C 80 , we derive radical ion pair state energies of 1.12 eV for C 60 -exTTF, 0.43 eV for La@C 82 -exTTF and 0.45 eV for La 2 @C 80 -exTTF (see below).…”

Section: (C) Electrochemical Characterizationsupporting

confidence: 80%

Rates and energetics of intramolecular electron transfer processes in conjugated metallofullerenes

Schubert

Rudolf

Guldi

et al. 2013

Phil. Trans. R. Soc. A.

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In this paper, we report on the design, redox potentials, excited state energies and radical ion pair state energies in electron donor–acceptor conjugates comprising the electron-donating π -extended tetrathia- fulvalene and several electron-accepting fullerenes. To this end, we contrast an empty fullerene, that is, C 60 , with two endohedral metallofullerenes, that is, open-shell La@C 82 and closed-shell La 2 @C 80 , in terms of charge separation and charge recombination dynamics.

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“…The fact that only a two-electron oxidation is experimentally observed for this unit is attributed to the strong stabilization (gain in aromaticity) experienced by the dication upon planarization of the central polyacenic moiety. [68] Thus, the one-electron oxidation potential of exTTF is not known, except for the fact that it must be equal or higher than the experimental two-electron value. The observed disproportionation of the radical monocation, generated radiolytically [69] or by flash photolysis, [41] strongly suggests that the one-electron oxidation potential must be higher than the experimental two-electron value.…”

Section: Dyad and Triad With Unsaturated Linkersmentioning

confidence: 98%

Hole‐Transfer Dyads and Triads Based on Perylene Monoimide, Quaterthiophene, and Extended Tetrathiafulvalene

Boixel

Blart

Pellegrin

et al. 2010

Chemistry A European J

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Two families of dyad and triad systems based on perylene monoimide (PMI), quaterthiophene (QT), and 9,10-bis(1,3-dithiol-2-ylidene)-9,10-dihydroanthracene (extended tetrathiafulvalene, exTTF) molecular components have been designed and synthesized. The dyads (D1 and D2) are of the PMI-QT type and the triads (T1 and T2) of the PMI-QT-exTTF type. The two families differ in the saturated or unsaturated nature of the linker groups (ethynylene in D1 and T1, ethylene in D2 and T2) that bridge the molecular components. The dyads and triads have been characterized by electrochemical, photophysical, and computational methods. Both the experimental and the computational (DFT) results indicate that in the unsaturated systems strong intercomponent interactions lead to substantial perturbation of the properties of the subunits. In particular, in T1, delocalization is particularly effective between the QT and exTTF units, which would be better viewed combined as a single electronic subsystem. For the dyad systems, the photophysics observed following excitation of the PMI unit is solvent-dependent. In moderately polar solvents (dichloromethane, diethyl ether) fast charge separation is followed by recombination to the ground state. In toluene, slow conversion to the charge-separated state is followed by intersystem crossing and recombination to yield the triplet state of the PMI unit. The behavior of the triads, on the other hand, is remarkably similar to that of the corresponding dyads, which indicates that, after primary charge separation, hole shift from the oxidized QT component to exTTF is quite inefficient. This unexpected result has been rationalized on the basis of the anomalous (simultaneous two-electron oxidation) electrochemistry of exTTF and with the help of DFT calculations. In fact, although exTTF is electrochemically easier to oxidize than QT by around 0.6 V, the one-electron redox orbitals (HOMOs) of the two units in triad T2 are almost degenerate.

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Synthesis, Properties, and Theoretical Characterization of Largely π-Extended Tetrathiafulvalene Derivatives with Quinonoid Structures

Cited by 131 publications

References 37 publications

Weighting non-covalent forces in the molecular recognition of C60. Relevance of concave–convex complementarity

Weighting non-covalent forces in the molecular recognition of C60. Relevance of concave–convex complementarity

Rates and energetics of intramolecular electron transfer processes in conjugated metallofullerenes

Hole‐Transfer Dyads and Triads Based on Perylene Monoimide, Quaterthiophene, and Extended Tetrathiafulvalene

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