Mechanomaterials: A Rational Deployment of Forces and Geometries in Programming Functional Materials

微尺度化学 纳米技术 领域(数学) 机械生物学 超材料 材料科学 机械工程 可伸缩电子设备 比例(比率) 数码产品 计算机科学 系统工程 工程类 物理 电气工程 数学教育 数学 光电子学 量子力学 生物 纯数学 遗传学
作者
Pingqiang Cai,Changxian Wang,Huajian Gao,Xiaodong Chen
出处
期刊:Advanced Materials [Wiley]
卷期号:33 (46) 被引量:75
标识
DOI:10.1002/adma.202007977
摘要

The knowledge of mechanics of materials has been extensively implemented in developing functional materials, giving rise to recent advances in soft actuators, flexible electronics, mechanical metamaterials, tunable mechanochromics, regenerative mechanomedicine, etc. While conventional mechanics of materials offers passive access to mechanical properties of materials in existing forms, a paradigm shift is emerging toward proactive programming of materials' functionality by leveraging the force-geometry-property relationships. Here, such a rising field is coined as "mechanomaterials". To profile the concept, the design principles in this field at four scales is first outlined, namely the atomic scale, the molecular scale, the manipulation of nanoscale materials, and the microscale design of structural materials. A variety of techniques have been recruited to deliver the multiscale programming of functional mechanomaterials, such as strain engineering, capillary assembly, topological interlocking, kirigami, origami, to name a few. Engineering optical and biological functionalities have also been achieved by implementing the fundamentals of mechanochemistry and mechanobiology. Nonetheless, the field of mechanomaterials is still in its infancy, with many open challenges and opportunities that need to be addressed. The authors hope this review can serve as a modest spur to attract more researchers to further advance this field.
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