铂纳米线致动器:金属纳米肌肉

Shaoxin Lu, B. Panchapakesan
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引用次数: 1

摘要

本文报道了利用铂纳米线网络制备电化学致动器并进行了表征。通过在电解质溶液中施加电压来控制纳米线网络的表面电子电荷密度,可以观察到~ 0.04%的可逆应变幅度。仅在±3v的电压下,位移幅度可达3mm,与大多数商用压电陶瓷材料相比要小得多。这些结果表明铂纳米线在构建人造肌肉和具有可调谐电子性能的材料方面具有潜在的应用前景。
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A Platinum Nanowires Actuator: Metallic Nano-Muscles
In this paper, we report the fabrication and characterization of electro-chemical actuator using platinum nanowire networks. Reversible strain amplitudes of ~ 0.04% have been observed by controlling the surface electronic charge density of the nanowire network through an applied voltage in an electrolyte solution. Displacement amplitudes of up to 3mm was observed for an applied voltage of only ±3 V, much smaller compared to most commercial piezoceramic materials. These results indicate the potential application of platinum nanowires for construction of artificial muscles and materials with tunable electronic properties.
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