材料科学
球晶(高分子物理)
无定形固体
光电子学
插层(化学)
体积热力学
放松(心理学)
功率密度
聚乙烯
纳米技术
电场
超短脉冲
脉冲功率
调制(音乐)
电气故障
铁电性
带隙
分子
储能
聚对苯二甲酸乙二醇酯
电势能
上部结构
折叠(DSP实现)
化学工程
电流密度
石蜡
作者
Ziyue Wang,Jiyang Xie,Wanbiao Hu
标识
DOI:10.1002/advs.202517894
摘要
Abstract The peculiar molecule‐structural units with ferroelectric ordering render poly(vinylidene fluoride) (PVDF) a crucial functional polymer, but the existence of the free volume in PVDF (also for many other polymers) would interrupt the long‐range molecule chains, leading to the declined electrical functionality (e.g., electric breakdown), and also the thermal, mechanical, and chain relaxation properties. Herein, to regulate the free volume for electrical tuning, a molecular spatial‐positioning shimming strategy is developed in terms of intercalating shortchain molecules polyethylene wax (PE wax) into the spherulite gap region of PVDF. The PE wax/PVDF films are fabricated by a multi‐layer folding coupled hot pressing route that allows the complex crystalline structure modulation (e.g., phase, morphology, spherulite formation, amorphous and free‐volume status etc .), which are comprehensively investigated. Upon free volume regulation, the fabricated PE wax/PVDF film exhibits significantly improved breakdown strength ( E b = 735.1 MV m −1 ). Meanwhile, ultrahigh energy density (32.67 J cm −3 ) and energy storage efficiency (78.02%) are synergistically achieved. With ultrafast energy release ( t 0.9 = 38.5 ns) and exceptional power density (138 MW cm − 3 ), the charge–discharge performance competes favorably with leading polymer/hybrid‐based films. This work offers a novel model to design new PVDF (or other polymer) based films with generating superior functionality.
科研通智能强力驱动
Strongly Powered by AbleSci AI