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Recent advances in flexible PVDF based piezoelectric polymer devices for energy harvesting applications

能量收集 压电 材料科学 电子线路 数码产品 电活性聚合物 机械能 微电子机械系统 灵活性(工程) 电气工程 纳米技术 功率(物理) 聚合物 工程类 物理 复合材料 统计 量子力学 数学
作者
Sunija Sukumaran,Samir Chatbouri,Didier Rouxel,Etienne Tisserand,Frédéric Thiébaud,Tarak Ben Zineb
出处
期刊:Journal of Intelligent Material Systems and Structures [SAGE Publishing]
卷期号:32 (7): 746-780 被引量:98
标识
DOI:10.1177/1045389x20966058
摘要

Energy harvesting is one of the most promising research areas to produce sustainable power sources from the ambient environment. Which found applications to attain the extensive lifetime self-powered operations of various devices such as MEMS wireless sensors, medical implants and wearable electronic devices. Piezoelectric nanogenerators can efficiently convert the vastly available mechanical energy into electrical energy to meet the requirements of low-powered electronic devices. Among the piezoelectric materials, poly (vinylidene fluoride) (PVDF) and its copolymers are extensively studied for the development of energy harvesting devices. Due to the outstanding properties such as high flexibility, ease of processing, long-term stability, biocompatibility makes them a promising candidate for piezoelectric generators. Nevertheless, compared to piezoceramic materials, PVDF based generators produce lower piezoresponse. Over the last decades, tremendous research activities have been reported to endorse the performance of PVDF based energy harvesters. This review article mainly focused on the recent progress in the performance improvement with processing methods, piezoelectric materials, different filler loading. The new developments and design structures will lead to an increase in piezoelectricity, alignment of dipoles, dielectric properties and subsequently enhance the output performance of the device. Electronic circuits play a vital role in energy harvesting to efficiently collect the developed charge from the device. Here, we have proposed a detailed description of the electronic circuits. Also, in the application part deals with the recent progress in flexible, biomedical and hybrid generators based on PVDF polymers.

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