基于填料和聚合物基体结构优化三明治结构复合材料：迈向高储能性能

Optimizing sandwich-structured composites based on the structure of the filler and the polymer matrix: toward high energy storage properties.

作者信息

Cui Yang, Wang Xuan, Zhang Tiandong, Zhang Changhai, Chi Qingguo

机构信息

Key Laboratory of Engineering Dielectrics and Its Application, Ministry of Education, Harbin University of Science and Technology Harbin 150080 PR China

School of Electrical and Electronic Engineering, Harbin University of Science and Technology Harbin 150080 PR China.

出版信息

RSC Adv. 2019 Oct 16;9(57):33229-33237. doi: 10.1039/c9ra06256d. eCollection 2019 Oct 15.

DOI:10.1039/c9ra06256d

PMID:35529108

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9073305/

Abstract

Polymer-based energy storage materials have been widely applied in the energy storage industry, such as in the hybrid electric vehicle and power-conditioning equipment, due to their moderate energy density and ultrafast charging/discharging speed. Accordingly, the improvement of the energy storage density of polymer matrix composites has become the focus of current research. In this study, different fillers (, 0.5Ba(ZrTi)O-0.5(BaCa)TiO nanofibers (BCZT NFs), BCZT + Ag NFs and BCZT + Ag@AlO NFs) were synthesized electrospinning and were added to the poly(vinylidene fluoride) (PVDF) matrix as a middle layer in sandwich-structure composites. The PVDF polymer-containing PMMA was prepared as the outer layer in the sandwich structure composites. These sandwich-structured composites have low loss, low current density, better breakdown strength and higher efficiency. In particular, 40% PMMA/PVDF/3 vol% BCZT + Ag@AlO/PVDF/40% PMMA/PVDF composites have an energy density of 7.23 J cm and efficiency above 75.8% at 370 kV mm. This article could open up a convenient and effective means for the practical application of power-pulsed capacitors by tuning the filler nanostructure and polymer nanocomposites.

摘要

基于聚合物的储能材料因其适中的能量密度和超快的充放电速度，已在储能行业中得到广泛应用，如在混合动力电动汽车和功率调节设备中。因此，提高聚合物基复合材料的储能密度已成为当前研究的重点。在本研究中，通过静电纺丝合成了不同的填料（0.5Ba(ZrTi)O-0.5(BaCa)TiO纳米纤维（BCZT NFs）、BCZT + Ag NFs和BCZT + Ag@AlO NFs），并将其作为夹心结构复合材料的中间层添加到聚偏氟乙烯（PVDF）基体中。含PMMA的PVDF聚合物被制备为夹心结构复合材料的外层。这些夹心结构复合材料具有低损耗、低电流密度、更好的击穿强度和更高的效率。特别是，40% PMMA/PVDF/3 vol% BCZT + Ag@AlO/PVDF/40% PMMA/PVDF复合材料在370 kV/mm下的能量密度为7.23 J/cm³，效率高于75.8%。本文通过调整填料纳米结构和聚合物纳米复合材料，可为功率脉冲电容器的实际应用开辟一种便捷有效的方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5601/9073305/6061b29d4e2b/c9ra06256d-f1.jpg

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基于填料和聚合物基体结构优化三明治结构复合材料：迈向高储能性能

Optimizing sandwich-structured composites based on the structure of the filler and the polymer matrix: toward high energy storage properties.

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