Development of Composite-film-based Flexible Energy Harvester using Lead-free BCTZ Piezoelectric Nanomaterials

Gwang Hyeon Kim, Hyeon Jun Park, Bitna Bae, Haksu Jang, Cheol Min Kim, Donghun Lee, Kwi-Il Park
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Abstract

Composite-based piezoelectric devices are extensively studied to develop sustainable power supply and selfpowered devices owing to their excellent mechanical durability and output performance. In this study, we design a leadfree piezoelectric nanocomposite utilizing (Ba0.85Ca0.15)(Ti0.9Zr0.1)O3 (BCTZ) nanomaterials for realizing highly flexible energy harvesters. To improve the output performance of the devices, we incorporate porous BCTZ nanowires (NWs) into the nanoparticle (NP)-based piezoelectric nanocomposite. BCTZ NPs and NWs are synthesized through the solidstate reaction and sol-gel-based electrospinning, respectively; subsequently, they are dispersed inside a polyimide matrix. The output performance of the energy harvesters is measured using an optimized measurement system during repetitive mechanical deformation by varying the composition of the NPs and NWs. A nanocomposite-based energy harvester with 4:1 weight ratio generates the maximum open-circuit voltage and short-circuit current of 0.83 V and 0.28 A, respectively. In this study, self-powered devices are constructed with enhanced output performance by using piezoelectric energy harvesting for application in flexible and wearable devices.
利用无铅 BCTZ 压电纳米材料开发基于复合薄膜的柔性能量收集器
基于复合材料的压电器件具有优异的机械耐久性和输出性能,因此被广泛用于开发可持续电源和自供电器件。在本研究中,我们利用 (Ba0.85Ca0.15)(Ti0.9Zr0.1)O3 (BCTZ) 纳米材料设计了一种无铅压电纳米复合材料,用于实现高柔性能量收集器。为了提高器件的输出性能,我们在基于纳米粒子(NP)的压电纳米复合材料中加入了多孔 BCTZ 纳米线(NW)。BCTZ NPs 和 NWs 分别通过固态反应和溶胶-凝胶电纺丝法合成,然后分散在聚酰亚胺基质中。在重复机械变形过程中,通过改变 NPs 和 NWs 的成分,使用优化的测量系统测量了能量收集器的输出性能。重量比为 4:1 的纳米复合材料能量收集器产生的最大开路电压和短路电流分别为 0.83 V 和 0.28 A。本研究利用压电能量收集技术构建了输出性能更强的自供电设备,可应用于柔性和可穿戴设备。
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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