材料科学
聚合物
侧链
刚度(电磁)
相(物质)
刚度
复合材料
双稳态
透射率
粘弹性
模数
光电子学
有机化学
化学
作者
Meng Gao,Yuan Meng,Claire R. Shen,Qibing Pei
标识
DOI:10.1002/adma.202109798
摘要
Abstract Stiffness variable materials have been applied in a variety of engineering fields that require adaptation, automatic modulation, and morphing because of their unique property to switch between a rigid, load‐bearing state and a soft, compliant state. Stiffness variable polymers comprising phase‐changing side‐chains (s‐SVPs) have densely grafted, highly crystallizable long alkyl side‐chains in a crosslinked network. Such a bottlebrush network‐like structure gives rise to rigidity modulation as a result of the reversible crystallization and melting of the side chains. The corresponding modulus changes can be more than 1000‐fold within a narrow temperature span, from ≈10 2 MPa to ≈10 2 kPa or lower. Other important properties of the s‐SVP, such as stretchability, optical transmittance, and adhesion, can also be altered. This work reviews the underlying molecular mechanisms in the s‐SVP's, discusses the material's structure–property relationship, and summarizes important applications explored so far, including reversible shape transformation, bistable electromechanical transduction, optical modulation, and reversible adhesion.
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