Impact of Molecular Design on Degradation Lifetimes of Degradable Imine-Based Semiconducting Polymers

Chiong, Jerika A.; Zheng, Yu; Zhang, Song; Ma, Guorong; Wu, Yilei; Ngaruka, Gradie; Lin, Yangju; Gu, Xiaodan; Bao, Zhenan

doi:10.1021/jacs.1c12845

Cited by 36 publications

(46 citation statements)

References 50 publications

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“…Simultaneously, the end of life of these thermoset materials should be taken into account through the concept “design to degrade”. − The controlled degradation or depolymerization of these networks yields oligomers or monomers that can be potentially used to be repolymerized or reincorporated into thermosetting matrices. ,,− …”

Section: Introductionmentioning

confidence: 99%

From the Design of Multifunctional Degradable Epoxy Thermosets to Their End of Life

Perli

Demir

Pruvost

et al. 2022

ACS Sustainable Chem. Eng.

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The development of multifunctional epoxy thermosets that meet the requirements of sustainable development by creating new macromolecular architectures, i.e., novel epoxy monomers, is a real challenge. Herein, a bis-imidazolium cycloaliphatic epoxidized room temperature ionic liquid (CEIL) was successfully synthesized at multigrams scale (1−200 g) and used as molecular brick platforms to design various networks combined to a computational approach. Thus, three epoxy networks were developed by cationic polymerization using CEIL and 3,4-epoxycyclohexylmethyl-3′,4′-epoxycyclohexane carboxylate (ECC) in the presence of a thermoacid initiator. The CEILbased networks presented higher thermal stabilities (>450 °C) and good mechanical performances combined for promising shape memory behavior. Most importantly, the incorporation of this ionic molecular brick, i.e., CEIL monomer in the architecture of the networks (50% or 100%), addresses the concept "design to degrade" inducing full degradability for the first time under mild working conditions (up to 99.4% of p-CEIL dissolution in 4.5 h).

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Section: Introductionmentioning

confidence: 99%

From the Design of Multifunctional Degradable Epoxy Thermosets to Their End of Life

Perli

Demir

Pruvost

et al. 2022

ACS Sustainable Chem. Eng.

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“…39 Bao and co-workers introduced the imine units into the backbone of SPs to realize the degradation of SPs by H + . 40,41 On the basis of the above research, introducing degradable groups into the backbone of SPs is a feasible strategy. Therefore, we rationally introduced the thiophene bridge into the backbone of SPs to design degradable SPs.…”

Section: ■ Results and Discussionmentioning

confidence: 99%

New Degradable Semiconducting Polymers for Photoacoustic Imaging of λ-Carrageenan-Induced Arthritis Mouse Model

Cai

et al. 2022

Anal. Chem.

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Semiconducting polymer has a high extinction coefficient and a long band absorption and can be used as a photoacoustic imaging contrast agent. However, nonbiodegradable semiconducting polymers may cause biosafety issues due to being retained in the body. Therefore, developing degradable semiconducting polymers is necessary for in vivo imaging. Herein, we developed three degradable semiconducting polymers with unique optical properties. We adjusted the optical properties of semiconducting polymers by designing the molecular structure of semiconducting polymers. Polymers with a donor−π−acceptor structure could easily improve the optical properties through adjusting the donor or acceptor units. Through adjusting the electron-donor and -acceptor units, three diketopyrrolopyrrole derivative polymers (DPPTz, DPPQu, and DPPWu) were synthesized and converted into nanosize particles. By introducing the degradable chemical groups in the main chain structure of semiconducting polymers, diketopyrrolopyrrole polymers could be degraded by ClO − . Among these nanosize particles, DPPTz NPs and DPPQu NPs were used to achieve the in vivo photoacoustic imaging of λ-carrageenan-induced arthritis mouse model. This work provides a novel design idea for the designing of red-shifted semiconducting polymer with degradable properties.

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“…23 Besides being semiconducting, these CPs are relatively soft with low cytotoxicity and have the ability to be morphologically and chemically tailored. 24 On the other hand, small molecules have been widely explored specifically due to their ease to bind well with biologically binding peptides and proteins. This design advantage along with NIR fluorescence imaging has presented them as prominent candidates for targeted disease diagnosis and treatment.…”

Section: Zhongzhong Lumentioning

confidence: 99%

Effective design of organic luminogens for near-infrared-II fluorescence imaging and photo-mediated therapy

Kamya

Cao

et al. 2022

J. Mater. Chem. B

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Impact of Molecular Design on Degradation Lifetimes of Degradable Imine-Based Semiconducting Polymers

Cited by 36 publications

References 50 publications

From the Design of Multifunctional Degradable Epoxy Thermosets to Their End of Life

From the Design of Multifunctional Degradable Epoxy Thermosets to Their End of Life

New Degradable Semiconducting Polymers for Photoacoustic Imaging of λ-Carrageenan-Induced Arthritis Mouse Model

Effective design of organic luminogens for near-infrared-II fluorescence imaging and photo-mediated therapy

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