Shape Memory Polymers with Patternable Recovery Onset Regulated by Light

IF 27.4 1区 材料科学 Q1 CHEMISTRY, MULTIDISCIPLINARY
Jiacheng Huang, Lintao Qiu, Chujun Ni, Guancong Chen, Qian Zhao
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引用次数: 0

Abstract

Shape memory polymers (SMPs) show attractive prospects in emerging fields such as soft robots and biomedical devices. Although their typical trigger-responsive character offers the essential shape-changing controllability, having to access external stimulation is a major bottleneck toward many applications. Recently emerged autonomous SMPs exhibit unique stimuli-free shape-shifting behavior with its controllability achieved via a delayed and programmable recovery onset. Achieving multi-shape morphing in an arbitrary fashion, however, is infeasible. In this work, a molecular design that allows to spatio-temporally define the recovery onset of an autonomous shape memory hydrogel (SMH) is reported. By introducing nitrocinnamate groups onto an SMH, its crosslinking density can be adjusted by light. This affects greatly the phase separation kinetics, which is the basis for the autonomous shape memory behavior. Consequently, the recovery onset can be regulated between 0 to 85 min. With masked light, multiple recovery onsets in an arbitrarily defined pattern which correspondingly enable multi-shape morphing can be realized. This ability to achieve highly sophisticated morphing without relying on any external stimulation greatly extends the versatility of SMPs.

Abstract Image

形状记忆聚合物,可通过光调节图案化的恢复起始时间。
形状记忆聚合物(SMP)在软机器人和生物医学设备等新兴领域展现出诱人的前景。虽然其典型的触发响应特性提供了基本的形状变化可控性,但必须获得外部刺激是许多应用的主要瓶颈。最近出现的自主 SMP 展示了独特的无刺激形状变换行为,其可控性是通过延迟和可编程的恢复起始来实现的。然而,以任意方式实现多形状变形并不可行。本研究报告介绍了一种分子设计方法,可在时空上定义自主形状记忆水凝胶(SMH)的恢复起始时间。通过在形状记忆水凝胶中引入硝基肉桂酸基团,可以用光来调节其交联密度。这极大地影响了相分离动力学,而相分离动力学正是自主形状记忆行为的基础。因此,恢复开始时间可在 0 至 85 分钟之间调节。通过遮蔽光线,可以实现任意定义模式的多个恢复起始点,从而相应地实现多种形状的变形。这种不依赖任何外部刺激就能实现高度复杂变形的能力极大地扩展了 SMP 的多功能性。
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来源期刊
Advanced Materials
Advanced Materials 工程技术-材料科学:综合
CiteScore
43.00
自引率
4.10%
发文量
2182
审稿时长
2 months
期刊介绍: Advanced Materials, one of the world's most prestigious journals and the foundation of the Advanced portfolio, is the home of choice for best-in-class materials science for more than 30 years. Following this fast-growing and interdisciplinary field, we are considering and publishing the most important discoveries on any and all materials from materials scientists, chemists, physicists, engineers as well as health and life scientists and bringing you the latest results and trends in modern materials-related research every week.
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