利用电场捕获金纳米粒子的自愈金属线用于柔性器件

2015 28th IEEE International Conference on Micro Electro Mechanical Systems (MEMS) Pub Date : 2015-03-02 DOI:10.1109/MEMSYS.2015.7050891

T. Koshi, E. Iwase

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引用次数: 1

摘要

我们利用电场捕获金纳米粒子，开发了一种自我修复的金属线。在可拉伸基板上断裂的金属丝可以通过自修复功能重新获得其导电性。本文首先从理论上分析了作用在纳米粒子上的力，并计算了引起电场捕获的临界电压。接下来，我们在玻璃基板上制作了带有人工图案裂纹的金线，并通过裂纹愈合实验验证了其自愈功能。最后，我们展示了裂纹金属线在可拉伸基板上的自修复，以显示自修复对柔性器件的有用性。

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Self-healing metal wire using an electric field trapping of gold nanoparticles for flexible devices

We developed a self-healing metal wire using an electric field trapping of gold nanoparticles. A cracked metal wire on a stretchable substrate can get its conductivity again by the self-healing function. In this paper, first, we theoretically analyzed force acting on a nanoparticle and calculated a critical voltage which cause the electric field trapping. Next, we fabricated gold wires with artificially patterned cracks on a glass substrate and verified the self-healing function by experiments of a crack healing. Finally, we demonstrated the self-healing of a cracked metal wire on a stretchable substrate to show a usefulness of the self-healing for flexible devices.

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2015 28th IEEE International Conference on Micro Electro Mechanical Systems (MEMS)

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