制作
材料科学
微球
导电体
瞬态(计算机编程)
液态金属
纳米尺度
表面张力
光电子学
各向异性
接触电阻
电接点
纳米技术
纳米-
复合材料
灵活的显示器
薄板电阻
聚合物
电阻和电导
弹性(材料科学)
电容器
张力(地质)
表征(材料科学)
导电聚合物
复合数
可扩展性
表面贴装技术
作者
Rui Pan,Dilong Liu,An Cao,Wei Zhang,Yunle Yao,Yi Gong,Lin Chen,Yue Li,Xingyou Tian
出处
期刊:Nano Letters
[American Chemical Society]
日期:2025-10-08
卷期号:25 (42): 15240-15248
标识
DOI:10.1021/acs.nanolett.5c03578
摘要
Liquid metal (LM) microsphere arrays hold great promise as adaptive conductive frameworks for next-generation flexible electronics. However, the spatial arrangement of micronano LM droplets poses a longstanding challenge to their practical application due to their inherent ultrahigh surface tension. Here, we introduce a transient emulsion-assisted self-assembly and fusion strategy that turns surface tension from a barrier into a driving force for ordered LM microsphere formation and precise positioning. The resulting LM microspheres exhibit dynamic interfacial conduction, enabling excellent mechanical adaptability under deformation. Embedded into a thermally responsive polymer matrix, the fabricated LM microsphere-arrayed anisotropic conductive film (ACF) achieves an ultralow contact resistance (0.303 mΩ/mm2, 96% lower than conventional ACFs) and stable performance under cyclic loading. Demonstrated in packaging flexible chip-LED arrays with stretchable circuits, this approach ensures both mechanical resilience and electrical reliability. This work offers a scalable pathway toward high-performance, compliant interconnects for future soft electronic systems.
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