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高功率超声激活的聚偏氟乙烯类弛豫型二次晶体中从硬到软转变增强的压电性

Hard-to-soft transition-enhanced piezoelectricity in poly(vinylidene fluoride) relaxor-like secondary crystals activated by high-power ultrasonication.

作者信息

Rui Guanchun, Allahyarov Elshad, Li Ruipeng, Taylor Philip L, Zhu Lei

机构信息

Department of Macromolecular Science and Engineering, Case Western Reserve University, Cleveland, Ohio, 44106-7202, USA.

Department of Physics, Case Western Reserve University, Cleveland, Ohio, 44106-7079, USA.

出版信息

Mater Horiz. 2022 Jul 4;9(7):1992-1998. doi: 10.1039/d2mh00442a.

Abstract

Although high piezoelectric coefficients have recently been observed in poly(vinylidene fluoride--trifluoroethylene) [P(VDF-TrFE)] random copolymers, they have low Curie temperatures, which makes their piezoelectricity thermally unstable. It has been challenging to achieve high piezoelectric performance from the more thermally stable PVDF homopolymer. In this report, we describe how high-power ultrasonic processing was used to induce a hard-to-soft piezoelectric transition and improve the piezoelectric coefficient in neat PVDF. After high-power ultrasonication for 20 min, a uniaxially stretched and poled PVDF film exhibited a high of 50.2 ± 1.7 pm V at room temperature. Upon heating to 65 °C, the increased to a maximum value of 76.2 ± 1.2 pm V, and the high piezoelectric performance persisted up to 110 °C. The enhanced piezoelectricity was attributed to the relaxor-like secondary crystals in the oriented amorphous fraction, broken off from the primary crystals by ultrasonication, as suggested by differential scanning calorimetry and broadband dielectric spectroscopy studies.

摘要

尽管最近在聚(偏二氟乙烯 - 三氟乙烯)[P(VDF - TrFE)]无规共聚物中观察到了高压电系数,但它们的居里温度较低,这使得其压电性在热方面不稳定。从热稳定性更高的聚偏氟乙烯均聚物中实现高压电性能一直具有挑战性。在本报告中,我们描述了如何使用高功率超声处理在纯聚偏氟乙烯中诱导硬 - 软压电转变并提高压电系数。在进行20分钟的高功率超声处理后,单轴拉伸和极化的聚偏氟乙烯薄膜在室温下表现出高达50.2±1.7 pm V的高d33值。加热到65°C时,d33增加到最大值76.2±1.2 pm V,并且高压电性能在高达110°C时仍然存在。如差示扫描量热法和宽带介电谱研究所示,增强的压电性归因于取向非晶部分中类似弛豫体的二次晶体,这些晶体通过超声处理从初级晶体中分离出来。

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