Programmable, Self‐Healable, and Photochromic Liquid Crystal Elastomers Based on Dynamic Hindered Urea Bonds for Biomimetic Flowers

Xu, Zhentian; Zhu, Yangyang; Ai, Yun; Zhou, Dan; Wu, Feiyan; Li, Chunquan; Chen, Lie

doi:10.1002/smll.202400520

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2024

DOI: 10.1002/smll.202400520

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Programmable, Self‐Healable, and Photochromic Liquid Crystal Elastomers Based on Dynamic Hindered Urea Bonds for Biomimetic Flowers

Zhentian Xu,

Yangyang Zhu,

Yun Ai

et al.

Abstract: Recently, researchers have been exploring the use of dynamic covalent bonds (DCBs) in the construction of exchangeable liquid crystal elastomers (LCEs) for biomimetic actuators and devices. However, a significant challenge remains in achieving LCEs with both excellent dynamic properties and superior mechanical strength and stability. In this study, a diacrylate‐functionalized monomer containing dynamic hindered urea bonds (DA‐HUB) is employed to prepare exchangeable LCEs through a self‐catalytic Michael additi… Show more

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Cited by 2 publications

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Strong yet Tough Catalyst‐Free Transesterification Vitrimer with Excellent Fire‐Retardancy, Durability, and Closed‐Loop Recyclability

Ye,

Huo,

Wang

et al. 2024

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Despite great advances in vitrimer, it remains highly challenging to achieve a property portfolio of excellent mechanical properties, desired durability, and high fire safety. Thus, a catalyst‐free, closed‐loop recyclable transesterification vitrimer (TPN1.50) with superior mechanical properties, durability, and fire retardancy is developed by introducing a rationally designed tertiary amine/phosphorus‐containing reactive oligomer (TPN) into epoxy resin (EP). Because of strong covalent interactions between TPN and EP and its linear oligomer structure, as‐prepared TPN1.50 achieves a tensile strength of 86.2 MPa and a toughness of 6.8 MJ m−3, superior to previous vitrimer counterparts. TPN1.50 containing 1.50 wt% phosphorus shows desirable fire retardancy, including a limiting oxygen index of 35.2% and a vertical burning (UL‐94) V‐0 classification. TPN1.50 features great durability and can maintain its structure integrity in 1 M HCl or NaOH solution for 100 days. This is because the tertiary amines are anchored within the cross‐linked network and blocked by rigid P‐containing groups, thus effectively suppressing the transesterification. Owing to its good chemical recovery, TPN1.50 can be used as a promising resin for creating recyclable carbon fiber‐reinforced polymer composites. This work offers a promising integrated method for creating robust durable fire‐safe vitrimers which facilitate the sustainable development of high‐performance polymer composites.

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Strong yet Tough Catalyst‐Free Transesterification Vitrimer with Excellent Fire‐Retardancy, Durability, and Closed‐Loop Recyclability

Ye,

Huo,

Wang

et al. 2024

Small

View full text Add to dashboard Cite

show abstract

Orthogonal photochemistry toward spatial reprogramming of 3D-printed liquid crystal elastomers

Wan,

Chen,

Zhou

et al. 2024

Chemical Engineering Journal

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Programmable, Self‐Healable, and Photochromic Liquid Crystal Elastomers Based on Dynamic Hindered Urea Bonds for Biomimetic Flowers

Cited by 2 publications

References 54 publications

Strong yet Tough Catalyst‐Free Transesterification Vitrimer with Excellent Fire‐Retardancy, Durability, and Closed‐Loop Recyclability

Strong yet Tough Catalyst‐Free Transesterification Vitrimer with Excellent Fire‐Retardancy, Durability, and Closed‐Loop Recyclability

Orthogonal photochemistry toward spatial reprogramming of 3D-printed liquid crystal elastomers

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