2,5-Diisopropenylthiophene by Suzuki–Miyaura cross-coupling reaction and its exploitation in inverse vulcanization: a case study

Tavella, Christian; Luciano, Giorgio; Lova, Paola; Patrini, M.; D’Arrigo, Cristina; Comoretto, Davide; Stagnaro, Paola

doi:10.1039/d2ra00654e

Cited by 3 publications

(4 citation statements)

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“…An analogous thiophene-containing monomer, 2,5-diisopropenylthiophene (DIT), was reported by Tavella et al, as a comonomer for inverse vulcanization of sulfur . Copolymers prepared using DIT exhibited RI values as high as 1.93 and 1.84 at 375 and 780 nm.…”

Section: General Synthetic Proceduresmentioning

confidence: 95%

“…79−81 An analogous thiophene-containing monomer, 2,5-diisopropenylthiophene (DIT), was reported by Tavella et al, as a comonomer for inverse vulcanization of sulfur. 82 Copolymers prepared using DIT exhibited RI values as high as 1.93 and 1.84 at 375 and 780 nm. The effect of various reaction parameters, such as temperature, base, and phase transfer catalyst, on the reaction yield was also studied, indicating higher reaction yield at stronger basic medium.…”

Section: General Synthetic Proceduresmentioning

confidence: 99%

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Recent Progress in Sulfur-Containing High Refractive Index Polymers for Optical Applications

Mazumder,

Voit,

Banerjee

2024

ACS Omega

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The development in the field of high refractive index materials is a crucial factor for the advancement of optical devices with advanced features such as image sensors, optical data storage, antireflective coatings, light-emitting diodes, and nanoimprinting. Sulfur plays an important role in high refractive index applications owing to its high molar refraction compared to carbon. Sulfur exists in multiple oxidation states and can exhibit various stable functional groups. Over the last few decades, sulfur-containing polymers have attracted much attention owing to their wide array of applications governed by the functional group of sulfur present in the polymer repeat unit. The interplay of refractive index and various other polymer properties contributes to successfully implementing a specific polymer material in optical applications. The focus on developing optoelectronic devices induced an ever-increasing need to integrate different functional materials to achieve the devices' full potential. Several devices that see the potential use of sulfur in high refractive index materials are reviewed in the study. Like sulfur, selenium also exhibits high molar refraction and unique chemical properties, making it an essential field of study. This review covers the research and development in the field of sulfur and selenium in different forms of functionality, focusing on the chemistry of bonding and the optical properties of the polymers containing the heteroatoms mentioned above. The strategy and rationale behind incorporating heteroatoms in a polymer matrix to produce highrefractive-index materials are also described in the present review.

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Section: General Synthetic Proceduresmentioning

confidence: 95%

Section: General Synthetic Proceduresmentioning

confidence: 99%

Recent Progress in Sulfur-Containing High Refractive Index Polymers for Optical Applications

Mazumder,

Voit,

Banerjee

2024

ACS Omega

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“…47 More information about the optical properties of the polymer pairings is available in the ESI † and in suitable literature where the problem of dielectric contrast has been addressed. 18,55,56 Transfer matrix method calculations were performed for microcavities of identical cavity mode wavelengths and overall structures, whose calculated transmittance spectra are reported in Fig. S8 (ESI †).…”

Section: Electric Field Propagation At Microcavity Modementioning

confidence: 99%

“…This is essential for suppressing as much of the off-resonance fluorescence as possible, especially in the case of polychromatic fluorescent dyes like organic emitters to funnel the majority of emitted light within the cavity mode. Correspondingly, it is of high importance to further develop polymers, blends, and hybrid systems 56,57 pushing the limits of refractive index of traditional polymers for more advanced photonic applications.…”

Section: Electric Field Propagation At Microcavity Modementioning

confidence: 99%

Control of near-infrared dye fluorescence lifetime in all-polymer microcavities

Megahd

Brito

Lanfranchi

et al. 2022

Mater. Chem. Front.

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Five-membered ring systems: thiophenes and selenium/tellurium analogs and benzo analogs

Joule

2023

Progress in Heterocyclic Chemistry

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2,5-Diisopropenylthiophene by Suzuki–Miyaura cross-coupling reaction and its exploitation in inverse vulcanization: a case study

Abstract: A novel thiophene derivative, namely 2,5-diisopropenylthiophene (DIT) was synthetized by Suzuki–Miyaura cross-coupling reaction (SMCCR) and employed in the inverse vulcanization (IV) process achieving high-refractive-index sulfur-rich polymers.

Cited by 3 publications

References 50 publications

Recent Progress in Sulfur-Containing High Refractive Index Polymers for Optical Applications

Recent Progress in Sulfur-Containing High Refractive Index Polymers for Optical Applications

Control of near-infrared dye fluorescence lifetime in all-polymer microcavities

Five-membered ring systems: thiophenes and selenium/tellurium analogs and benzo analogs

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