Exploring the piezoelectric porous polymers for energy harvesting: a review

Q2 Engineering Energy Harvesting and Systems Pub Date : 2023-06-05 DOI:10.1515/ehs-2022-0159
Ikram Najihi, C. Ennawaoui, A. Hajjaji, Y. Boughaleb
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引用次数: 2

Abstract

Abstract In addition to traditional piezoelectric polymers, mono-crystals and ceramics, piezoelectrets or charged voided polymers have shown an interesting piezoelectric response by converting the mechanical energy into electrical and vice versa, therefore being incorporated in a number of advanced electromechanical transducers. This article is a review on the different phases for the elaboration of pseudo piezoelectric films based on passive polymers. First, several methods for the elaboration of the cellular structure of these materials are explained in the main text, with the morphological representation of the reached porosity. The porosity represents a cell to embed the positive and negative electrical charges created by the most common electrical charging processes, which are subsequently mentioned. Different theoretical models are emphasized as well to predict the piezoelectric behavior of this porous polymers. Finally, some of the latest harvesting energy applications based on porous polymers are collected. All the considerations cited above make Piezoelectric porous polymers open access materials that can be developed and optimized by the control of the porosity then used in energy harvesting applications.
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探索用于能量收集的压电多孔聚合物
除了传统的压电聚合物、单晶和陶瓷外,压电极体或带电空化聚合物通过将机械能转化为电能而表现出有趣的压电响应,因此被纳入许多先进的机电换能器中。本文综述了制备基于被动聚合物的伪压电薄膜的不同相。首先,在正文中解释了几种阐述这些材料的细胞结构的方法,以及达到孔隙率的形态学表示。孔隙率代表了一个嵌入由最常见的充电过程产生的正电荷和负电荷的电池,这在后面会提到。不同的理论模型也强调了预测这种多孔聚合物的压电行为。最后,介绍了一些基于多孔聚合物的能量收集的最新应用。上述所有考虑因素使压电多孔聚合物成为开放获取材料,可以通过控制孔隙度来开发和优化,然后用于能量收集应用。
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来源期刊
Energy Harvesting and Systems
Energy Harvesting and Systems Energy-Energy Engineering and Power Technology
CiteScore
2.00
自引率
0.00%
发文量
31
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