Enhanced Piezoelectric Response in Nanostructured Ni/PVDF Films

Journal of Material Sciences & Engineering Pub Date : 2018-01-01 DOI:10.4172/2169-0022.1000444

Melilli G, Gorse D, G. A., Oral O, Balanzat E, D. O., T. M., Bechelany M, Lairez D, Wegrowe Je, M. Clochard

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引用次数: 2

Abstract

Poly(vinylidene fluoride) (PVDF) composites have recently emerged as excellent candidates to fabricate flexible and small piezoelectric generators for portable devices. Among various techniques used to nanostructure polarized PVDF, the track-etching represents a new route for manufacturing nanostructured composite thin films. The moderate influence of irradiation on the piezoelectric response of polarized PVDF makes possible the use of this technique. In this way, a nanostructured composite based on polarized thin PVDF films comprising embedded nickel nanowires (Ni NWs) was fabricated. The nanostructured PVDF/Ni NWs composites were tested under bending conditions using a homemade pressure cell. Due to the presence of NWs, an increase of five-fold the initial dielectric permittivity, in the low-frequency range, was observed. It suggested the presence of an interfacial polarization at the PVDF/Ni interface. With respect to the etched PVDF, the nanostructured PVDF/Ni NWs composites exhibited a non-negligible enhancement by 2.5 times the piezoelectric efficiency. This result was attributed to the increased Au/Ni NWs electrode surface.

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纳米结构Ni/PVDF薄膜的增强压电响应

聚偏氟乙烯(PVDF)复合材料最近成为制造便携式柔性和小型压电发电机的优秀候选者。在制备纳米结构极化PVDF的各种技术中，轨迹刻蚀技术代表了制备纳米结构复合薄膜的新途径。由于辐照对极化PVDF压电响应的影响不大，使得该技术的应用成为可能。通过这种方法，制备了一种基于嵌入镍纳米线的极化PVDF薄膜的纳米结构复合材料。在自制的压力电池上，对纳米结构PVDF/Ni NWs复合材料进行了弯曲测试。由于NWs的存在，在低频范围内，观察到初始介电常数增加了五倍。结果表明，在PVDF/Ni界面上存在界面极化现象。与蚀刻PVDF相比，纳米结构PVDF/Ni NWs复合材料的压电效率提高了2.5倍。这一结果归因于增加的Au/Ni NWs电极表面。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Material Sciences & Engineering

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