Thiophene-Based Trimers and Their Bioapplications: An Overview

Vallan, Lorenzo; Istif, Emin; Gómez, I. Jénnifer; Alegret, Núria; Mantione, Daniele

doi:10.3390/polym13121977

Cited by 20 publications

(12 citation statements)

References 558 publications

(809 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Overall, this work paves the way for the elaboration of a large range of easy-to-synthesize visible-light polymerization photoinitiators. Future work will focus on the preparation of related hybrids incorporating thiophene derivatives, which present very interesting photocatalytic and biological properties . Also, while we report here on the synthesis of POM derivatives covalently bonded to one organic fragment, imido-Lindqvist POMs incorporating up to six organic fragments can be obtained .…”

Section: Discussionmentioning

confidence: 99%

“…Future work will focus on the preparation of related hybrids incorporating thiophene derivatives, which present very interesting photocatalytic and biological properties. 36 Also, while we report here on the synthesis of POM derivatives covalently bonded to one organic fragment, imido-Lindqvist POMs incorporating up to six organic fragments can be obtained. 37 Investigation of the effect of the accumulation of organic photoinitiators around a single Lindqvist unit on the properties of the hybrid systems thus seems very appealing.…”

Section: ■ Conclusionmentioning

confidence: 99%

See 1 more Smart Citation

Shifting from UV to Visible-Light the Activity of Organic Photoinitiators via the Covalent Grafting of Polyoxometalates

et al. 2023

View full text Add to dashboard Cite

Anthracene-, benzophenone-, and anthraquinone-based UV photoinitiators have been, respectively, covalently grafted on the [Mo6O19]2– polyoxometalate (POM) platform, affording highly colored charge transfer organo-imido Lindqvist complexes. It has been evidenced that photosystems combining N-methyldiethanolamine (MDEA) as the electron donor and these hybrid POMs promote free-radical photopolymerization of acrylate monomer derivatives under irradiation in the visible range, while in similar conditions, no polymerization was observed considering as photoinitiators a mixture of the organic and POM precursors. After 800 s, acrylate conversion yields up to 90% under 405 nm LED irradiation and 50% under 470 nm LED irradiation were thus obtained considering the POM-imidoanthraquinone (POM-AQ) compound. This shows that such organo-imido Lindqvist species can represent new easy-to-synthesize, efficient visible-light photoinitiators. Moreover, due to the presence of the POM, coatings prepared using the POM-AQ/MDEA/soybean oil epoxidized acrylate photosystem exhibit excellent mechanical properties, with very good flexibility, resistance to brittle fracture, and adherence to the steel. Finally, POM-AQ was shown to have a remarkable capacity to generate singlet oxygen species under visible light irradiation, and the antibacterial activity against Staphylococcus aureus under solar light of the related POM-derived surface has been demonstrated.

show abstract

Section: Discussionmentioning

confidence: 99%

Section: ■ Conclusionmentioning

confidence: 99%

Shifting from UV to Visible-Light the Activity of Organic Photoinitiators via the Covalent Grafting of Polyoxometalates

et al. 2023

View full text Add to dashboard Cite

show abstract

“…I. E. Palamà and coworkers demonstrate that small linear terthiophene derivatives—very versatile building blocks employed in numerous bio‐applications, from photodynamic therapy to cancer treatment, [ 39 ] and able to polymerize enzymatically in vivo along the roots of living plants, [ 40 ] can promote the formation of functional microfibers in live cells. Moreover, the properties of the microfibers can be modulated by changing the functionalization at the sulfur atom.…”

Section: The Formation Of Microfibers: a Physiological Live Cell Guid...mentioning

confidence: 99%

Small thiophene fluorophores in live cells promote protein self‐assembly into nanostructured fluorescent and electroactive microfibers

et al. 2023

View full text Add to dashboard Cite

This review describes an unprecedented class of biocompatible protein‐based microfibers obtained by exploiting the ability of small thiophene fluorophores: (1) to be spontaneously incorporated by living cells (2D or 3D) without causing any harm, (2) to act as protein self‐assembly inducers, and (3) to transfer their long‐lasting fluorescence and electroactivity properties to the protein‐fluorophore microfibers. The process is driven by cell's own metabolism and leads to the generation of stable multifunctional microfibers exhibiting hierarchical order across several length‐scales with morphologies varying from helical wires to rigid rods. Analogous microfibers are obtained following uptake of an appropriate thiophene fluorophore by small living organisms (Hydra vulgaris). Due to the high photostability of thiophene fluorophores, the entire process of fibers formation can be tracked in real time by LSCM. Moreover, the microfibers can be picked up and separated by their environment to assess their composition and properties by a variety of techniques including electrophoretic analyses and Q‐TOF mass spectrometry, Tr‐TUNA AFM and KPFM. This review also reports DFT calculations aimed to provide indications for the design of appropriate thiophene fluorophores for microfibers formation inside live cells.

show abstract

“…polymers (CPs)/small molecules composed of alternating electron donor (D) and acceptor (A) moieties have triggered massive interest for organic electronic applications such as organic photovoltaic (OPV) [1] and organic fieldeffect transistor (OFET) [2,3] owing to their facile processing, relatively high absorption, stability, and accessible redox potentials. [4][5][6][7][8][9][10] Introducing D and A groups to the conjugated backbone of the molecule would be possible to significantly increase the photon response and intramolecular charge transfer upon excitation. [11][12][13] However, conjugated small organic molecules with D-A-D structures are rarely explored for their photocatalytic solar fuel production although they possess distinct advantages compared with conjugated polymers.…”

Section: Introduction π-Conjugatedmentioning

confidence: 99%

Organic Conjugated Trimers with Donor–Acceptor–Donor Structures for Photocatalytic Hydrogen Generation Application

Yuan

Vallan

Bui

et al. 2023

Adv Funct Materials

Self Cite

View full text Add to dashboard Cite

Organic donor-acceptor-donor (D-A-D) polymers or small molecules are widely investigated in organic solar cells (OSC) due to their broad light absorption, narrow band gap, excellent charge mobility and exciton seperation at the interface. However, studies of conjugated small molecules with D-A-D molecule structures as photocatalytically active materials are still rare. In this work, we give an unprecedented demonstration that photocatalytic activity can in fact be affected by tuning the D and A.Especially, the EBE trimer, comprising 3,4-ethylenedioxythiophene (E) and benzothiadiazole (B) units, exhibits the best photophysical, chemical and photocatalytic properties compared to other D-A-D combinations of D and A. Detailed kinetic studies show that all these trimers in organic solution present relatively long-lived and highly emissive photogenerated singlet excitons (τ = 4 -13 ns; φem = 0.5 -0.9) as judged by photoluminescence and transient absorption measurements, while in specific cases formation of long-lived triplet states can be identified. Organic microparticles of the trimers are efficiently formed in aqueous solution by nanoprecipitation, and rapid photoinduced electron release/injection to the solvent is evidenced spectroscopically. The results indicate that organic small molecule structures with D-A-D structures pave a new pathway for photocatalytic solar-to-chemical energy conversion of novel small organic molecules.

show abstract

Thiophene-Based Trimers and Their Bioapplications: An Overview

Cited by 20 publications

References 558 publications

Shifting from UV to Visible-Light the Activity of Organic Photoinitiators via the Covalent Grafting of Polyoxometalates

Shifting from UV to Visible-Light the Activity of Organic Photoinitiators via the Covalent Grafting of Polyoxometalates

Small thiophene fluorophores in live cells promote protein self‐assembly into nanostructured fluorescent and electroactive microfibers

Organic Conjugated Trimers with Donor–Acceptor–Donor Structures for Photocatalytic Hydrogen Generation Application

Contact Info

Product

Resources

About