Sacrificial Cyclic Poly(phthalaldehyde) Templates for Low-Temperature Vascularization of Polymer Matrices

Garg, Mayank; Ladd, Adam C.; Aw, Jia En; Zhang, X.; Sottos, Nancy R.

doi:10.1021/acsapm.1c01372

Cited by 3 publications

(2 citation statements)

References 72 publications

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“…Due to their excellent degradability, PPAs have been utilized as a thermal sacrificial layer [4], and photoresists for laser beam lithography [5] and EUV [6][7][8] recently.…”

Section: Introductionmentioning

confidence: 99%

Networked Polyphthalaldehydes Linked with Oxime Ether and Urethane Units and Their Photo-induced Depolymerization

Suyama,

Hayashi,

Tachi

2023

J. Photopol. Sci. Technol.

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Photo-induced depolymerization is a useful technique in designing functional materials and polymer recycling. Polyphthalaldehyde (PPA) has been known to be depolymerizable even in solid state. In this study, networked PPAs linked with oxime ether and urethane units have been prepared, and their photo-induced depolymerization was attempted. The networked structure of PPAs was prepared by anionic polymerization of phthalaldehyde monomer (o-PA) initiated with trifunctional oxime and 1,8-diazabicyclo[5.4.0]undec-7-ene to form truxene core bearing three PPA chains, followed by termination with difunctional isocyanates. We could obtain networked PPAs from 1,5-naphthalene diisocyanate, although could not from hexamethylene diisocyanate. Obtained networked polymers were pressed in neat pellets and UV-irradiated with Hg-Xe lamp (>310 nm). By repeated irradiation in solid state and dispersed state in chloroform, almost of the PPAs became soluble in chloroform. In 1 H NMR spectra of the soluble fractions, peaks due to o-PA and phthalide were observed, suggesting the proceeding of almost complete decrosslinking and depolymerization. Trace amount of insoluble powder finally remained and discussed based on its IR spectrum. We also compared the scanning microscope images of PPAs before and after irradiation.

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“…Due to their excellent degradability, PPAs have been utilized as a thermal sacrificial layer [4], and photoresists for laser beam lithography [5] and EUV [6][7][8] recently.…”

Section: Introductionmentioning

confidence: 99%

Networked Polyphthalaldehydes Linked with Oxime Ether and Urethane Units and Their Photo-induced Depolymerization

Suyama,

Hayashi,

Tachi

2023

J. Photopol. Sci. Technol.

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“…(c) Schematic diagram of scratch repair principle with MF microcapsules embedded in epoxy oxides[47]. (d) Schematic diagram of 3D-printed vascularized fibres[52]. (e) Microvascular networks infused with self-healing and curing agents are embedded in silicon moulds[50].…”

mentioning

confidence: 99%

Self-Healing Polymeric Materials and Composites for Additive Manufacturing

Jiang,

Ng,

Han

et al. 2023

Polymers

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Self-healing polymers have received widespread attention due to their ability to repair damage autonomously and increase material stability, reliability, and economy. However, the processability of self-healing materials has yet to be studied, limiting the application of rich self-healing mechanisms. Additive manufacturing effectively improves the shortcomings of conventional processing while increasing production speed, accuracy, and complexity, offering great promise for self-healing polymer applications. This article summarizes the current self-healing mechanisms of self-healing polymers and their corresponding additive manufacturing methods, and provides an outlook on future developments in the field.

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Manufacturing multifunctional vascularized composites by through-thickness frontal polymerization and depolymerization: A numerical study on the impact of sacrificial fiber configurations

Chen,

Zhang

2024

Composites Science and Technology

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Sacrificial Cyclic Poly(phthalaldehyde) Templates for Low-Temperature Vascularization of Polymer Matrices

Cited by 3 publications

References 72 publications

Networked Polyphthalaldehydes Linked with Oxime Ether and Urethane Units and Their Photo-induced Depolymerization

Networked Polyphthalaldehydes Linked with Oxime Ether and Urethane Units and Their Photo-induced Depolymerization

Self-Healing Polymeric Materials and Composites for Additive Manufacturing

Manufacturing multifunctional vascularized composites by through-thickness frontal polymerization and depolymerization: A numerical study on the impact of sacrificial fiber configurations

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