Cross-Conjugated Cruciform Fluorophores

Zucchero, Anthony J.; McGrier, Psaras L.; Bunz, Uwe H. F.

doi:10.1021/ar900218d

Cited by 288 publications

(143 citation statements)

References 65 publications

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“…When the calculated transition energy for 16c is compared to that for the parent 11c′ (R = H, X = CN), there is a decrease of almost 0.7 eV. This effect is less observed in acenes that have more congruent frontier molecular orbitals 19 . When comparing the tetracene 16a with cyano-substituted 16c, there also occurs a lowering of the computed transition energy; however, the shift of 0.55 eV is smaller than the effect observed when going from 11a′ to 11c′.…”

Section: Discussionmentioning

confidence: 96%

“…4b). A disjoint orbital structure 19 , that is, spatially separated frontier molecular orbitals results. The disjointing effect is further amplified by electronegative substituents and decreases the transition energies for diazaacenes.…”

Section: Discussionmentioning

confidence: 99%

“…Chlorination lowers both HOMO and LUMO, but with the former effect insufficient to preclude hole injection, whereas the latter effect facilitates electron injection; however, the optical gap does not change to any appreciable extent 15 . The tetrachloro substitution only led to a slight shift in the absorption maximum going from 643 nm for 5 16 to 654 nm for 6 in solution, suggesting that chlorine substitution had comparable impact on both the ground and first excited states [17][18][19] . Lowering the absorption energies can be useful in the context of organic solar cells when looking for acene derivatives showing absorption into the near-infrared, as observed in Anthony's hexacenes and heptacenes 20,21 .…”

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confidence: 94%

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Effects of electronegative substitution on the optical and electronic properties of acenes and diazaacenes

et al. 2010

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Large acenes, particularly pentacenes, are important in organic electronics applications such as thin-film transistors. Derivatives where CH units are substituted by sp 2 nitrogen atoms are rare but of potential interest as charge-transport materials. In this article, we show that pyrazine units embedded in tetracenes and pentacenes allow for additional electronegative substituents to induce unexpected redshifts in the optical transitions of diazaacenes. The presence of the pyrazine group is critical for this effect. The decrease in transition energy in the halogenated diazaacenes is due to a disproportionate lack of stabilization of the Homo on halogen substitution. The effect results from the unsymmetrical distribution of the Homo, which shows decreased orbital coefficients on the ring bearing chlorine substituents. The more strongly electron-accepting cyano group is predicted to shift the transitions of diazaacenes even further to the red. Electronegative substitution impacts the electronic properties of diazaacenes to a much greater degree than expected.

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Section: Discussionmentioning

confidence: 96%

Section: Discussionmentioning

confidence: 99%

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confidence: 94%

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Effects of electronegative substitution on the optical and electronic properties of acenes and diazaacenes

et al. 2010

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“…11 For example, D−A π-conjugated rods are of considerable importance for nanoscience and nanotechnology because they represent elementary functional building blocks showing interesting optical and electronic properties. 42 In that connection, molecular cruciforms [8][9][10][11][12][13][14][15]43,44 and T-shaped systems 35,45 having ICT transitions were investigated as fluorescence polarity indicators or metal ion sensors. Moreover, dual fluorescence was observed in several D−A systems owing to the interplay between locally excited (LE) and charge transfer (CT) states.…”

Section: ■ Introductionmentioning

confidence: 99%

Tuning the Direction of Intramolecular Charge Transfer and the Nature of the Fluorescent State in a T-Shaped Molecular Dyad

et al. 2015

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Controlling photoinduced intramolecular charge transfer at the molecular scale is key to the development of molecular devices for nanooptoelectronics. Here, we describe the design, synthesis, electronic characterization, and photophysical properties of two electron donor-acceptor molecular systems that consist of tolane and BF2-containing curcuminoid chromophoric subunits connected in a T-shaped arrangement. The two π-conjugated segments intersect at the electron acceptor dioxaborine core. From steady-state electronic absorption and fluorescence emission, we find that the photophysics of the dialkylamino-substituted analogue is governed by the occurrence of two closely lying excited states. From DFT calculations, we show that excitation in either of these two states results in a distinct shift of the electron density, whether it occurs along the curcuminoid or tolane moiety. Femtosecond transient absorption spectroscopy confirmed these findings. As a consequence, the nature of the emitting state and the photophysical properties are strongly dependent on solvent polarity. Moreover, these characteristics can also be switched by protonation or complexation at the nitrogen atom of the amino group. These features set new approaches toward the construction of a three-terminal molecular system in which the lateral branch would transduce a change of electronic state and ultimately control charge transport in a molecular-scale device.

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“…[21,22] In the case of oligo-phenylacetylenes and -vinylenes, the constituting arenes can formally be replaced relatively easily by other heteroaromatic units such as pyridines, thiophenes, and others. [1,2,11,23] The introduction of heteroatoms in the form of higher alkenes as surrogates of traditional alkenes has been explored to a much lesser extent, despite the advantages in terms of lower HOMO-LUMO gaps and polarizability that are offered by this strategy. [24][25][26] The first oligo-phenylethylene analogues that feature disilenes, [27][28][29] phosphaalkenes, [30,31] and diphosphenes [32,33] instead of classical C=C bonds have emerged in the literature only recently.…”

Section: Introductionmentioning

confidence: 99%

Acetylene‐Expanded Dendralene Segments with Exotopic Phosphaalkene Units

Geng

Ott

2011

Chemistry A European J

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Bis-TMS protected C,C-diacetylenic phosphaalkene (A(2)PA) 1 (Mes*P=C(C≡CTMS)(2); Mes* = 2,4,6-tBu(3)Ph) has been used as a building block for the construction of butadiyne-expanded dendralene fragments in which phosphaalkenes feature as exotopic double bonds. Treatment of 1 with CuCl gives rise to a Cu(I) acetylide that is selectively formed at the acetylene trans to the Mes* group. The cis-TMS-acetylene engages in similar chemistry, albeit at higher temperatures and longer reaction times. The differentiation between the two acetylene termini of 1 allows for the controlled synthesis of the title compounds by a variety of different Cu- and Pd-catalyzed oxidative acetylene homo- and heterocoupling protocols. Crystallographic characterization of A(2)PA 1 and dimeric Mes*P=C(C≡CR(1))C(4)(R(2) C≡C)C=PMes* (3b, R(1) = R(2) = Ph; 6, R(1) = R(2) = TMS), and 10 (R(1) = R(2) = C≡CPh) verifies that the stereochemistry across the P=C bond is conserved during the coupling reactions, whereas spectroscopic evidence reveals cis/trans isomerization in an iodo-substituted A(2)PA intermediate 4 (Mes*P=C(C≡CTMS)(C≡CI). UV/Vis spectroscopic and electrochemical studies reveal that efficient π conjugation operates through the entire acetylenic phosphaalkene framework, even in the cross-conjugated dimeric structures. The P centers contribute considerably to the frontier molecular orbitals of the compounds, thereby leading to smaller HOMO-LUMO gaps than in all-carbon-based congeners. Phenyl- and/or ethynylphenyl substituents at the A(2)PA framework influence the HOMO and LUMO to a varying degree depending on their relationship to the Mes* group, thus enabling a fine-tuning of the frontier molecular orbitals of the compounds.

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Cross-Conjugated Cruciform Fluorophores

Cited by 288 publications

References 65 publications

Effects of electronegative substitution on the optical and electronic properties of acenes and diazaacenes

Effects of electronegative substitution on the optical and electronic properties of acenes and diazaacenes

Tuning the Direction of Intramolecular Charge Transfer and the Nature of the Fluorescent State in a T-Shaped Molecular Dyad

Acetylene‐Expanded Dendralene Segments with Exotopic Phosphaalkene Units

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