Flexible nanogenerator with 3D-printed ferroelectrets

Ningzhen Wang, Kerry Davis, Michael Sotzing, Mohamadreza Arab Baferani, Jindong Huo, C. B. Carter, R. Gerhard, Yang Cao
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引用次数: 4

Abstract

Flexible ferroelectret-polymer films are piezoelectric due to macro-dipoles that consist of charge layers with opposite polarity across deformable internal cavities and can thus be suitable for wearable energy-harvesting devices. 3D printing of ferroelectrets could increase the design variability of cavity structures, enhance performance and extend application possibilities. In this work, three polypropylene (PP) ferroelectrets with ellipsoidal cavities, but different in porosity and sample thickness were printed by means of Fused Filament Fabrication. After the samples had been polarized via a corona discharge, their piezoelectric performance was characterized by measuring short-circuit current (Isc) and open-circuit voltage (Voc) responses under the same cyclic compressive force. It was found that the PP ferroelectret with a porosity of 25% performed best with Isc of 0.65 μA and Voc of 65 V, and that the peak-to-peak output power decreases with decreasing porosity. A clear influence of sample thickness and cavity geometry was not observed. Our results provide design guidance for the future optimization of the porous structure of ferroelectrets and promote the development of energy harvesting devices for wearable electronics.
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具有3d打印铁驻极体的柔性纳米发电机
柔性铁驻极体聚合物薄膜是压电性的,这是由于在可变形的内部腔中由极性相反的电荷层组成的宏观偶极子,因此可以适用于可穿戴的能量收集装置。3D打印铁驻极体可以增加空腔结构的设计可变性,提高性能并扩展应用可能性。本文采用熔融长丝法制备了三种具有不同孔隙率和样品厚度的椭球腔的聚丙烯铁驻极体。样品经电晕放电极化后,通过测量相同循环压缩力下的短路电流(Isc)和开路电压(Voc)响应来表征其压电性能。结果表明,孔隙率为25%的PP铁驻极体在Isc为0.65 μA、Voc为65 V时表现最佳,且输出功率随孔隙率的减小而减小。没有观察到样品厚度和空腔几何形状的明显影响。研究结果为未来铁驻极体多孔结构的优化提供了设计指导,促进了可穿戴电子器件能量收集装置的发展。
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