Donor‐Acceptor Truxene‐Based Porous Polymers: Synthesis, Optoelectronic Characterization and Defense‐Related Applications

Méndez‐Gil, Nayara; Gámez‐Valenzuela, Sergio; Echeverri, Marcelo; Suyo, Gary H.; Iglesias, Marta; Delgado, M. Carmen Ruiz; Gómez‐Lor, Berta

doi:10.1002/adfm.202316754

Adv Funct Materials

2024

DOI: 10.1002/adfm.202316754

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Donor‐Acceptor Truxene‐Based Porous Polymers: Synthesis, Optoelectronic Characterization and Defense‐Related Applications

Nayara Méndez‐Gil,

Sergio Gámez‐Valenzuela,

Marcelo Echeverri

et al.

Abstract: Four donor‐acceptor (D‐A) polymers are synthesized by combining two different electron donors (truxene and its more electron rich triaza analogue, triindole) with an electron‐deficient monomer (benzothiadiazole) through two different positions (2,7,13 or 3,8,13) and their optoelectronic properties are studied by theoretical and experimental methods. One of the polymers exhibits remarkable sensing capabilities for explosive nitraoaromatics while another demonstrated efficient photocatalytic activity in the aero… Show more

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Cited by 6 publications

References 43 publications

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Multistimuli‐Responsive Luminescent Porous Organic Polymers with Chiroptical Properties and Acid‐Induced Degradation

He,

Fan,

Zhang

et al. 2024

Chin. J. Chem.

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Comprehensive SummaryPorous organic polymers (POPs) have attracted great attention in past decades. Although diverse functional POPs have been developed, multistimuli‐responsive POPs with excellent aggregate‐state luminescence together with good chiroptical properties have rarely been reported. Herein, two pairs of Salen‐type enantiomeric POPs with multistimuli‐responsive luminescence and chiral features were designed and synthesized by facile polycondensation reactions between polyfunctional aggregation‐induced emission luminogen (AIEgen)‐containing salicylaldehyde derivatives and chiral diamines. With Salen units in polymer backbones as tetradentate ligands, a series of POP‐metal complexes were further prepared. The obtained POPs and metal complexes show good porosity, high thermal stability, and obvious circular dichroism signals. Moreover, benefiting from the coexistence of AIEgen and Salen units in polymer structures, these POPs exhibit excellent luminescence performance in aggregate states and tunable fluorescence behaviors in response to external stimuli of Zn2+ ion, mechanical forces, organic solvent, and acids. Due to the dynamic feature of Schiff base C=N bonds, the present POPs can efficiently undergo hydrolysis reactions under strong acidic conditions to reproduce the AIEgen‐ containing monomers, and such an acid‐induced degradation process can be directly visualized and dynamically monitored via fluorescence variation. These properties collectively make the POPs candidate materials for applications in heterogeneous asymmetric catalysis, fluorescence sensing, biomedicine, etc.

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Multistimuli‐Responsive Luminescent Porous Organic Polymers with Chiroptical Properties and Acid‐Induced Degradation

He,

Fan,

Zhang

et al. 2024

Chin. J. Chem.

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Metal‐ and Acid‐Free Photocatalytic Approach Using Quinone‐Based Hyper‐Crosslinked Porous Catalysts for the Valorization of Glycerol into Solketal

Matarín,

González‐Aguilera,

Ferrer

et al. 2024

Solar RRL

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Two metal‐ and acid‐free anthracene and anthraquinone‐based photocatalysts (HCP‐AQ‐2Ph and HCP‐AN‐2Ph) are synthesized and used for the effective acetalization of glycerol to obtain selectively solketal, an added‐value compound with several industrial applications and high demand as an oxygenated additive of fuels. HCP‐AQ‐2Ph and HCP‐AN‐2Ph were prepared by a Friedel‐Crafts coupling reaction between the anthraquinone (AQ) or anthracene (A) and biphenyl (2Ph) as co‐monomer which led to the formation of high thermally stable hyper‐crosslinked porous networks with specific surface areas of 295 and 596 m2.g‐1 respectively. Initial tests suggested that HCP‐AN‐2Ph is a less efficient catalyst compared to HCP‐AQ‐2Ph. However, subsequent runs indicate that during the first trial, the anthracene units are oxidized, resulting in a catalyst (HCP‐AN(OX)‐2Ph) just as effective as the anthraquinone‐based one. The quantitative and selective conversion of glycerol into solketal is achieved in just 3 h using a 4wt% catalyst and maintaining this catalytic performance for at least 5 cycles. In addition, the process can be scaled allowing the obtaining of solketal with high purity on a gram scale. These results place these catalysts among the most effective for the selective production of solketal from glycerol compared to previously reported metal‐or acid‐catalyzed reaction.This article is protected by copyright. All rights reserved.

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2D sp2 carbon-linked benzotrithiophene covalent organic frameworks for selective sulfoxidation with oxygen driven by green light

Huang,

Zhang,

Wang

et al. 2025

Applied Catalysis B: Environment and Energy

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Donor‐Acceptor Truxene‐Based Porous Polymers: Synthesis, Optoelectronic Characterization and Defense‐Related Applications

Cited by 6 publications

References 43 publications

Multistimuli‐Responsive Luminescent Porous Organic Polymers with Chiroptical Properties and Acid‐Induced Degradation

Multistimuli‐Responsive Luminescent Porous Organic Polymers with Chiroptical Properties and Acid‐Induced Degradation

Metal‐ and Acid‐Free Photocatalytic Approach Using Quinone‐Based Hyper‐Crosslinked Porous Catalysts for the Valorization of Glycerol into Solketal

2D sp2 carbon-linked benzotrithiophene covalent organic frameworks for selective sulfoxidation with oxygen driven by green light

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