Thiochromenocarbazole imide: a new organic dye with first utility in large area flexible electroluminescent devices

Castán, José María Andrés; Amruth, C; Josse, Pierre; Galán, Laura Abad; Marqués, Pablo Simón; Allain, Magali; Maury, Olivier; Bahers, Tangui Le; Blanchard, Philippe; Monnereau, Cyrille; Welch, Gregory C.; Cabanetos, Clément

doi:10.1039/d2qm00299j

Cited by 12 publications

(7 citation statements)

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“…3b). 12 Fig. 1 Structure of 4-amino-1,8-naphthalimide "4-ANI" and fused hybrids, including perylene diimides "PDIs", naphthalene diimides "NDIs" and general structures of ANI/heterocycle fused hybrid dyes.…”

Section: Heterothioxanthenes (X = S) Historic Dyesmentioning

confidence: 99%

“…This new example confirms that to date, the use of heteroxanthene/ANI-fused hybrid molecules is mostly considered for therapeutic applications, and examples from the literature also tend to assert that they are good candidates for bioelectronic applications. 10,12 For all the examples presented above, one can wonder what would be the impact on fluorescence of introducing an electron donating group (EDG) in a judiciously selected position of xanthene or heteroxanthene/ANI-fused hybrids, to allow the establishment of an internal charge transfer (ICT) between this EDG and the phthalimide unit electron-withdrawing group (EWG). I believe that this is a plausible and relevant method of reflection in the quest for fluorescent chromophores fusing an ANI backbone to a xanthene or heteroxanthene unit.…”

Section: Selenoxanthenes (X = Se) As Antiviral Agentsmentioning

confidence: 99%

Section: Heteroxanthene-fused Dyesmentioning

confidence: 99%

“…10 (b) Structure of thiochromenocarbazole imide TCI2 and photographs of flexible OLEDs. Figures adapted from the literature 12.…”

mentioning

confidence: 99%

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The how and why of naphthalimide/heterocycle-fused hybrid dyes: an overview of the latest developments in the quest for dyes with innovative optical properties

Chevalier

2023

Org. Biomol. Chem.

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Section: Heterothioxanthenes (X = S) Historic Dyesmentioning

confidence: 99%

Section: Selenoxanthenes (X = Se) As Antiviral Agentsmentioning

confidence: 99%

Section: Heteroxanthene-fused Dyesmentioning

confidence: 99%

“…10 (b) Structure of thiochromenocarbazole imide TCI2 and photographs of flexible OLEDs. Figures adapted from the literature 12.…”

mentioning

confidence: 99%

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The how and why of naphthalimide/heterocycle-fused hybrid dyes: an overview of the latest developments in the quest for dyes with innovative optical properties

Chevalier

2023

Org. Biomol. Chem.

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“…A class of synthetically versatile organic compounds, known as π-conjugated materials, have been extensively used for a number of applications including charge transport/extraction, − light emission, − and even small-molecule catalysis. − Among the numerous π-conjugated material designs, the arrangement of electron-deficient (acceptor) and electron-rich (donor) organic units in an acceptor–donor–acceptor (A–D–A) motif has been popularized owing to the fact that the optical band gap, electron affinity, and/or redox stability can be easily tuned . Generally speaking, improved semiconducting properties are observed in A–D–A systems with an extended π-orbital overlap; this can be achieved by materials that exhibit either a highly planar ring-fused organic backbone or by those that promote conformational locking interactions between heteroatom-containing functional groups in the organic backbone. − ,, While nearly an infinite number of specialized organic building blocks may be pieced together to make these A–D–A π-conjugated materials, it is important that a reliable, selective, efficient, and atom-economical synthetic protocol be developed for these materials to ever be produced on the industrial scale. , With these criteria in mind, the use of direct (hetero)arylation (DHA) to develop these π-conjugated materials has been leveraged as a highly effective cross-coupling method.…”

Section: Introductionmentioning

confidence: 99%

Systematic Investigation of Core and Endcap Selection on the Development of Functional π-Conjugated Materials

et al. 2022

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We investigate the optoelectronic properties of four new πconjugated materials, which feature either a 3,4-ethylenedioxythiophene (EDOT) or an EDOT-flanked benzothiadiazole aryl core with two N-annulated perylene diimide (NPDI) or theobromine endcaps. Endcap selection was an important factor for the preferred molecular geometry, where the use of NPDI endcaps induced a dragonfly-type conformation and the use of theobromine endcaps promoted a corkscrew-like conformation. Electrochemically, the choice of aryl πconjugated core was found to have a strong influence on the molecule's highest occupied molecular orbital (HOMO) energy level, while the choice of endcap had a more profound effect on the lowest unoccupied molecular orbital (LUMO) energy level. Although the optical absorption profiles were generally dominated by endcap contributions, using the larger EDOT-flanked benzothiadiazole aryl core was found to decrease the optical energy band gap. Proof-of-concept organic photovoltaic (OPV) devices, using a PM6:Y6 bulk heterojunction (BHJ) photoactive layer, were fabricated using the four new π-conjugated materials as the cathode interlayer (CIL). The molecules featuring the EDOT aryl core (A and B) enabled OPV device power conversion efficiencies (PCEs) by around 12%, comparable to control devices using PDINN as the CIL, while those featuring the EDOT-flanked benzothiadiazole aryl core (C and D) obtained PCEs of 10.5%. The observed differences in OPV device performance were attributed to superior solubility and subsequent CIL film formation in the case of A and B, compared to C and D, which, in turn, led to improved contact between the Ag top electrode and the BHJ photoactive layer.

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Sub 20 nm Upconversion Photosensitizers for Near‐Infrared Photodynamic Theranostics

Nsubuga,

Morice,

Fayad

et al. 2024

Adv Funct Materials

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Efficient type II photodynamic therapy (PDT) requires stable and biocompatible photosensitizers (PS) that present low dark cytotoxicity, are photo‐excitable in deep tissue regions, and can efficiently penetrate and kill cells via in situ singlet oxygen production. Here, heavy‐metal‐free organic PS are combined with near‐infrared (NIR)‐excitable small (<20 nm) upconversion nanoparticles (UCNPs) into UCNP‐PS nanohybrids for accomplishing such advanced PDT conditions. UCNP‐to‐PS energy transfer efficiencies between 11% and 42% and 1O2 generation quantum yields between 74% and 86% resulted in efficient NIR‐sensitized PDT. HeLa cells incubated with UCNP‐PS can be efficiently destroyed via 808 nm laser irradiance at 140 mW cm−2 for 3 min (<30% cell viability) or 3.2 W cm−2 for 6 min (<10% cell viability). Theranostic functionality of UCNP‐PS is demonstrated via live cell in situ imaging of intracellular UCNP‐PS‐mediated 1O2 production, which resulted in cell death, most probably via apoptosis. Preliminary in vivo experiments are also performed and the consequences for a detailed in vivo study toward clinical translation are discussed. The combined PDT and deep‐tissue imaging properties of the nanomolecular PS present a large potential for future implementation into advanced in vivo photodynamic theranostics.

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Thiochromenocarbazole imide: a new organic dye with first utility in large area flexible electroluminescent devices

Abstract: The N-annulation of a benzothioxanthene imide (BTI) derivative is demonstrated herein affording the unprecedented thiochromenocarbazole imide (TCI). The impact of this chemical modification on the molecular structure and optoelectronic properties...

Cited by 12 publications

References 50 publications

The how and why of naphthalimide/heterocycle-fused hybrid dyes: an overview of the latest developments in the quest for dyes with innovative optical properties

The how and why of naphthalimide/heterocycle-fused hybrid dyes: an overview of the latest developments in the quest for dyes with innovative optical properties

Systematic Investigation of Core and Endcap Selection on the Development of Functional π-Conjugated Materials

Sub 20 nm Upconversion Photosensitizers for Near‐Infrared Photodynamic Theranostics

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