Fabrication of PVDF/PMMA Polymer for Sustainable Energy Harvesting

Journal of Solar Energy Research Updates Pub Date : 2023-11-28 DOI:10.31875/2410-2199.2023.10.07

J. R. Leppe-Nerey, F. Sierra-Espinosa, M. Nicho, M.A. Basurto, J.A. Rodríguez

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Abstract

Abstract: The synthesis of blends that combine properties of two or more polymeric materials is increasingly investigated due to the versatility of the synthesis and its growing potential for many applications, including sustainability. Their characteristics are defined mainly by the synthesis conditions. Therefore, this paper details the synthesis process of easy-to-handle films using mixing method. The procedures and drawbacks found during the preparation of composite films are described. Polymeric compounds formed by the mixture of polyvinylidene fluoride (PVDF) and polymethyl methacrylate (PMMA) are addressed, varying the concentration, and evaluating their impact on the piezoelectric capacity. Films were formed through the spin-coating technique and characterized by optical and holographic microscopes. The results showed that composites with a concentration of 50 wt.% or larger of PVDF in the blend acquire a morphology with a granular appearance, however at lower concentrations they present a homogeneous morphology similar to that of PMMA. A homogeneous distribution of PVDF in the PMMA stands out. However, excessive contents of PMMA are associated to peaks and non-uniformities detected like multicolored regions by digital holography. Controlled strength-strain laboratory tests allowed to evaluate the film blends performance. The results indicate noticeable improvements in voltage output for a composition 70wt% PVDF and 30 wt% PMMA.

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制作用于可持续能量收集的 PVDF/PMMA 聚合物

摘要：由于合成方法的多样性及其在许多应用领域（包括可持续发展）日益增长的潜力，人们对结合两种或两种以上聚合物材料特性的共混物的合成进行了越来越多的研究。它们的特性主要由合成条件决定。因此，本文详细介绍了使用混合法合成易处理薄膜的过程。本文介绍了制备复合薄膜的程序和缺点。本文讨论了由聚偏二氟乙烯（PVDF）和聚甲基丙烯酸甲酯（PMMA）混合形成的聚合物化合物，改变了其浓度，并评估了它们对压电容量的影响。薄膜通过旋涂技术形成，并通过光学和全息显微镜进行表征。结果表明，当 PVDF 在共混物中的浓度达到或超过 50 wt.% 时，复合材料的形态呈颗粒状，而当浓度较低时，则呈现出与 PMMA 相似的均匀形态。PVDF 在 PMMA 中的均匀分布非常明显。不过，PMMA 的过高含量会导致峰值和不均匀性，数字全息图像可检测到多色区域。通过控制强度-应变实验室测试，可以评估薄膜的混合性能。结果表明，70 wt% 的 PVDF 和 30 wt% 的 PMMA 可明显改善电压输出。

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 Solar Energy Research Updates

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