基于碳纳米管和离子生物聚合物的仿生纳米复合驱动器

Wei Chen, Luhua Lu
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引用次数: 2

摘要

本文提出了一类新的活性体系——碳纳米管-生物聚合物复合致动器,它可以很容易地克服碳纳米管笨重纸张的缺点。在这种柔性和生物相容性的复合材料中,碳纳米管仅作为高导电性填料与壳聚糖基质中的离子液体一起使用。执行器采用双晶片结构,均匀的生物聚合物支撑的内部离子液体电解质层夹在两个碳纳米管电极层之间。这种材料的一体化组合清楚地表明,在低施加电压下,在大气中有相当大的可逆位移。实验研究结果表明,在整个开发过程中,在电压幅值、频率和湿度决定的位移响应方面取得了改进,这表明干致动器在人工肌肉和微系统产品中实现的可能性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Bionic nanocomposite actuator based on carbon nanotube and ionic biopolymer
Here we present a new class of active system, carbon nanotube-biopolymer composite actuators, which can easily overcome drawbacks of carbon nanotube bulky papers. In such a flexible and biocompatible composite, carbon nanotubes are only served as a highly conductive filler together with an ionic liquid in a chitosan matrix. The actuator adopts a bimorph configuration with the unform biopolymer-supported internal ionic liquid electrolyte layer sandwiched by two carbon nanotube electrode layers. Such an all-in-one combination of materials clearly shows a sizable reversible displacement in an atmosphere at low applied voltages was applied. Results of experimental investigations have shown the improvements achieved throughout the development process focusing on the voltage amplitude, frequency and moisture-determined displacement response, which shows the possibility of implementation of dry actuators in artificial muscle and micro-system products.
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