耐液驻极体采用超疏水柱表面

2015 28th IEEE International Conference on Micro Electro Mechanical Systems (MEMS) Pub Date : 2015-03-02 DOI:10.1109/MEMSYS.2015.7051152

Yu-Chung Chen, K. Song, K. Morimoto, Yuji Suzuki

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引用次数: 2

摘要

我们首次实现了可以在液体环境中使用的驻极体，从而提高了基于驻极体的发电机和执行器的性能。通过使用超疏水悬垂柱表面，即使在低表面张力的十六烷液体和高表面电位下，也能保持稳定的Cassie-Baxter (C-B)状态。具有SiO2驻极体层的柱表面已成功地使用我们先前开发的软x射线光电离进行充电。柱状表面明显抑制了电荷衰减，与十六烷液滴接触5天后，柱状表面电位保持在160 V以上。

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Liquid-tolerant electret using super-lyophobic pillar surface

For the first time, we have realized electret that can be used in the liquid environment toward better performance of electret-based generators and actuators. By using super-lyophobic overhanging pillar surface, stable Cassie-Baxter (C-B) state is sustained even with low-surface-tension hexadecane liquid and with high surface potential. Pillar surface with a SiO2 electret layer has been successfully charged with soft X-ray photoionization we previously developed. The pillar surface significantly suppressed the charge decay, and surface potential as high as 160 V has been maintained after 5-day contact with hexadecane droplet.

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

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