Cultivation of In situ foam 3D-printing: Lightweight and flexible triboelectric nanogenerators employing polyvinylidene fluoride/graphene nanocomposite foams with superior EMI shielding and thermal conductivity

材料科学 聚偏氟乙烯 摩擦电效应 复合材料 石墨烯 纳米复合材料 电磁干扰 电磁屏蔽 热导率 石墨烯泡沫 聚合物 电磁干扰 纳米技术 氧化石墨烯纸 电子工程 工程类
作者
Amirjalal Jalali,Araz Rajabi‐Abhari,Haonan Zhang,Tanmay Gupta,Otávio Augusto Titton Dias,Md Akibul Islam,Tobin Filleter,Ning Yan,Mohini Sain,Chul B. Park
出处
期刊:Nano Energy [Elsevier BV]
卷期号:134: 110554-110554 被引量:25
标识
DOI:10.1016/j.nanoen.2024.110554
摘要

This study explores the novel realm of foam 3D-printing, a convergence of foaming and 3D-printing techniques, with profound implications for multifunctional stretchable electronics. Through scalable in situ foam printing, lightweight and stretchable foamed polyvinylidene fluoride (PVDF)/graphene nanocomposites were successfully fabricated. By incorporating varying percentages (2, 3, 5, and 7 wt.%) of graphene into PVDF, alongside a 3 wt.% foaming agent for foamed 3D-printing filaments, a diverse range of filaments were fabricated. Next, employing fused filament fabrication (FFF), 3D-printed PVDF nanocomposites and nanocomposites foams were produced. Both shear and elongational rheological tests, respectively, corroborated that the incorporation of a foaming agent and graphene amplified the shear-thinning behavior and instigated strain hardening in the PVDF nanocomposite foam, rendering them viable options for foam 3D-printing. The resulting materials exhibited promising electrical and thermal conductivity attributes, as well as effective electromagnetic interference (EMI) shielding properties. The additional nanofiller content significantly augmented both electrical and thermal conductivity, further enhanced by the introduction of a cellular structure. Notably, foamed 3D-printed PVDF nanocomposites containing 7 wt.% of graphene demonstrated an EMI shielding effectiveness (SE) of 36 dB distinguished by minimal reflectivity and predominant absorption characteristics. X-ray diffraction (XRD) analysis indicated that the in situ foam 3D-printing facilitates the formation of the β-phase. The printed specimens were deployed as the tribonegative element in the Triboelectric Nanogenerator (TENG) system. The fabricated TENG displayed notable efficiency, as evidenced by the foamed 3D-printed PVDF, which generated an output voltage of 270 V and a current of 5 μA, successfully illuminating 80 Light Emitting Diode (LED) lights. Meanwhile, the 3D-printed nanocomposite foams with 3 wt.% nanofiller exhibited superior performance, achieving an output voltage of 550 V and a current of 11 μA. This investigation underscores the potential of the in situ foam 3D-printing for the development of advanced lightweight and flexible energy storage devices. • Lightweight and stretchable foamed polyvinylidene fluoride (PVDF)/graphene nanocomposites were effectively fabricated using a scalable in situ foam printing technique. • Foamed 3D-printed PVDF nanocomposites exhibited an EMI shielding effectiveness (SE) of 36 dB, characterized by low reflectivity and primarily absorption-driven properties. • The 3D-printed nanocomposite foams with 3 wt.% nanofiller demonstrated exceptional performance, attaining an output voltage of 550 V and a current of 11 μA.
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