期刊
ADVANCED FUNCTIONAL MATERIALS
卷 -, 期 -, 页码 -出版社
WILEY-V C H VERLAG GMBH
DOI: 10.1002/adfm.202310225
关键词
fracture; liquid-metal composites; stretchable electronics
This study introduces an innovative elastomeric composite that incorporates a 3D network of liquid metal, which offers exceptional stretchability, durability, and conductivity. The mechanics model demonstrates the enhanced flexibility and fracture resistance brought about by the interconnected 3DLM architecture. Additionally, the study emphasizes the conductivity enhancement under strain of the 3DLM composites.
Current stretchable conductors, often composed of elastomeric composites infused with rigid conductive fillers, suffer from limited stretchability and durability, and declined conductivity with stretching. These limitations hinder their potential applications as essential components such as interconnects, sensors, and actuators in stretchable electronics and soft machines. In this context, an innovative elastomeric composite that incorporates a 3D network of liquid metal (LM), offering exceptional stretchability, durability, and conductivity, is introduced. The mechanics model elucidates how the interconnected 3DLM architecture imparts softness and stretchability to the composites, allowing them to withstand tensile strains of up to 500% without rupture. The relatively low surface-to-volume ratio of the 3DLM network limits the reforming of the oxide layer during cyclic stretch, thereby contributing to low permanent strain and enhanced durability. Additionally, the 3D architecture facilitates crack blunting and stress delocalization, elevating fracture resistance, while simultaneously establishing continuous conductive pathways that result in high conductivity. Notably, the conductivity of the 3DLM composite increases with strain during substantial stretching, highlighting its strain-enhanced conductivity. In comparison to other LM-based composites featuring 0D LM droplets, the 3DLM composite stands out with superior properties. Herein, a novel elastomeric composite is developed that integrates a 3D network of liquid metal, resulting in outstanding stretchability, durability, and conductivity. The mechanics model demonstrates the enhanced flexibility and fracture resistance brought about by the interconnected 3DLM architecture. Furthermore, the study emphasizes the conductivity enhancement under strain of the 3DLM composites.image
作者
我是这篇论文的作者
点击您的名字以认领此论文并将其添加到您的个人资料中。
推荐
暂无数据