Quadruple Functionalization of a Tetraphenylethylene Aromatic Scaffold with Ynamides or Tetracyanobutadienes: Synthesis and Optical Properties

Philippe, Clotilde; Coste, Maëva; Bretonnière, Yann; Lemiègre, Loı̈c; Ulrich, Sébastien; Trolez, Yann

doi:10.1002/ejoc.202200049

Cited by 9 publications

(7 citation statements)

References 62 publications

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“…The strong push–pull effects result in electron polarization (also often termed as ground-state charge transfer), resulting in a new low-energy optical transition extending the optical coverage. Making use of the facile reaction and optical properties, they have extensively explored building TCBD-substituted push–pull systems − and polymers as promising materials for photovoltaic applications. − Our groups have explored a wide variety of donor-functionalized TCBD-based molecular systems exhibiting novel optical and excited-state properties including ultrafast charge transfer and intervalence charge transfer properties. − …”

Section: Introductionmentioning

confidence: 99%

Star-Shaped Triphenylamine–Tetracyanobutadiene–Phenothiazine Push–Pull Systems: Role of Terminal Phenothiazine in Improving Charge Transfer

et al. 2022

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Understanding the process of charge transfer in multimodular push−pull systems is of great significance for technology breakthroughs, especially in the areas of light energy conversion and building optoelectronic devices. In this study, a series of symmetrical and unsymmetrical push−pull systems, 1−4, were designed and synthesized via the Pd-catalyzed Sonogashira crosscoupling reaction, followed by the [2 + 2] cycloaddition−retroelectrocyclization reaction. The D−π−D 3 ′ and D−A n −D 3 ′ (n = 0−3) molecular configurations of 1−4 contained triphenylamine (TPA), D, as the central core and phenothiazine (PTZ), D′, as the endcapping unit as a donor and TCBD as the central electron acceptor, A. As control compounds, C1−C4 with a general formula D−A n were also synthesized to realize the effect of terminal PTZ in the charge transfer events. The photophysical properties of both star-shaped symmetrical and unsymmetrical 2−4 molecules exhibited a broad intramolecular charge transfer (ICT, also known as charge polarization) band in the visible−near-IR region due to strong push−pull interactions. The electrochemical properties of both the 1−4 and C1−C4 series exhibited multistep redox processes, and spectroelectrochemical studies helped in arriving at the spectral features of the charge transfer species. Frontier orbitals generated on DFT optimized structures helped in visualizing the charge transfer within the different donor and acceptor entities of a given push−pull system. Finally, femtosecond transient absorption spectral studies followed by data analysis by target analyses were utilized to demonstrate excited charge transfer. The terminal PTZ in compounds 2−4 is shown to stabilize the charge transfer state compared to the corresponding control compounds revealing its significance in modulating charge transfer properties.

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Section: Introductionmentioning

confidence: 99%

Star-Shaped Triphenylamine–Tetracyanobutadiene–Phenothiazine Push–Pull Systems: Role of Terminal Phenothiazine in Improving Charge Transfer

et al. 2022

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“…The easy synthetic methods also led to the formation of a variety of molecules for a wide range of applications. 45,46 These properties encouraged us to use TCBD for transistor applications. TCBD and TAA are strong electron-accepting and donating units; IQ is considered as a weak acceptor or π-terminal unit.…”

Section: Introductionmentioning

confidence: 99%

π-Extended indoloquinoxaline functionalized triarylamines with ethynyl and tetracyanobutadiene bridges for p-channel and ambipolar OFETs

Devibala,

Balambiga,

Imran

et al. 2024

New J. Chem.

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“…These chromophores have been widely considered as suitable small molecules for organic electronics, since their orbital energy levels can be easily controlled by judiciously choosing donors and acceptors . However, the synthesized 1,1,4,4-tetracyanobuta-1,3-dienes (TCBDs) have largely been found to be nonemissive/negligible due to radiation-less decay pathways mediated by photoinduced electron transfer/twisted ICT phenomena or charge separation. − Despite the fact that emissive TCBD chromophores have been rarely reported, − their numerous applications continue to demand their synthesis. Nevertheless, Li and co-workers have observed aggregation-induced emission (AIE) with a quantum yield (Φ F ) of 8.5% in hexane during the morphological transition into vesicle/nanotube nanostructures in the aggregate-friendly designed (TCBD) 2 OPV 3 molecule .…”

Section: Introductionmentioning

confidence: 99%

“…To obtain emissive TCBDs, another approach was made by several groups, i.e., fluorophore conjugation with TCBDs; however, only a few reports have successfully shown luminescence behavior. For example, Trolez and co-workers demonstrated that the ynamide- based TCBD conjugated with fluorophores achieved notable photoluminescence (PL), including an NIR emission in organic apolar solvents, e.g., cyclohexane, with a remarkable quantum yield of 7.6% , and a weak NIR emission in the solid state due to the AIE synthon of tetraphenylethene . Using a similar approach and varying polyaromatics, a significant increase of the luminescence lifetime was demonstrated in the solid state in comparison to that in solution .…”

Section: Introductionmentioning

confidence: 99%

Superior Photophysical and Photosensitizing Properties of Nanoaggregates of Weakly Emissive Dyes for Use in Bioimaging and Photodynamic Therapy

Dar,

Ahmad,

Kumar

et al. 2023

Biomacromolecules

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The development of luminescent dyes based on 1,1,4,4-tetracyanobuta-1,3-dienes (TCBDs) is an active research area, and a quantum yield (Φ F ) of 7.8% has been achieved so far in cyclohexane by appending a fluorophore. Our novel method radically refines weakly emissive 2,3-disubstituted TCBD (phenyl-TCBD 1) (Φ F = 2.3% in CH 3 CN) into a water-soluble, biocompatible nanoformulation as highly emissive aggregates 1NPs ⊂ PF-127 with Φ F = 7.9% in H 2 O and without fluorophore conjugation. Characterization of 1NPs ⊂ PF-127 was carried out using various spectroscopic techniques, and its predominant size was found to be 80−100 nm according to transmission electron microscopy and dynamic light scattering techniques. Spectroscopic studies including Fourier transform infrared spectroscopy revealed that aggregated phenyl-TCBD particles were encapsulated in a nonluminescent triblock copolymer (PF-127)-based nanomicelles with the TCBD entrapment efficiency of 77%. With increasing water fraction, the phenyl-TCBD nanoaggregates exhibited a 3-fold higher quantum yield, a greater lifetime, and a red shift (155 nm). This remarkable enhancement in red emissivity enabled them to be used as a bioprobe for bioimaging applications and in photodynamic therapy to selectively target cancer cell lines with singlet oxygen generation capability (Φ Δ = 0.25). According to the MTT assay, compared to the native molecular form (1229 nM), the aggregated 1NPs ⊂ PF-127 (13.51 nM) exhibited dose-dependent cell death when exposed to light with 91-fold increased activity. The histoarchitectures of various vital organs (liver, kidneys, heart, lungs, and spleen) were intact when tested for in vivo biocompatibility. This study has significant implications for developing nonplanar push−pull chromophore-based dyes as biosensors and with potential applications beyond bioimaging.

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Quadruple Functionalization of a Tetraphenylethylene Aromatic Scaffold with Ynamides or Tetracyanobutadienes: Synthesis and Optical Properties

Cited by 9 publications

References 62 publications

Star-Shaped Triphenylamine–Tetracyanobutadiene–Phenothiazine Push–Pull Systems: Role of Terminal Phenothiazine in Improving Charge Transfer

Star-Shaped Triphenylamine–Tetracyanobutadiene–Phenothiazine Push–Pull Systems: Role of Terminal Phenothiazine in Improving Charge Transfer

π-Extended indoloquinoxaline functionalized triarylamines with ethynyl and tetracyanobutadiene bridges for p-channel and ambipolar OFETs

Superior Photophysical and Photosensitizing Properties of Nanoaggregates of Weakly Emissive Dyes for Use in Bioimaging and Photodynamic Therapy

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