High performance flexible green triboelectric nanogenerator with polyethylene oxide/mica tribo-positive composite material

IF 7.2 2区材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY

Applied Materials Today Pub Date : 2024-07-13 DOI:10.1016/j.apmt.2024.102321

Aliesha D. Johnson, Mohammad M. Rastegardoost, Nima Barri, Tobin Filleter, Zia Saadatnia, Hani E. Naguib

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引用次数: 0

Abstract

Innovating novel, green, biodegradable, and recyclable polymers are critical for the development of environmentally sustainable solutions, eliminating concerns of pollution and microplastic accumulation. Herin, this study presents remarkably enhanced tribo-positive polyethylene oxide (PEO) polarity, by incorporating for the first time, a clay inorganic filler, creating a novel biodegradable composite triboelectric material. The low-cost composite comprised a biodegradable polymeric PEO matrix, an abundant naturally sourced muscovite mica micro-platelet filler, and integrated simple material fabrication methods. A 4 cm PEO/Mica film was paired with polytetrafluoroethylene (PTFE), generating a peak-to-peak voltage, current density, and transferred charge density of respectfully, 296 V, 24.2 mA and 110.3 µC . Reducing the film thickness to 40 µm dramatically enhanced the electrical output, resulting in a peak-to-peak voltage and instantaneous power density of respectfully, 424 V and 12.1 W . The addition of mica greatly improved the dielectric permittivity, promoting the outstanding triboelectric performance. The composite material's long-term stability and flexibility demonstrated significant advantages for self-powering small electronic systems. Furthermore, PEOs facile water solubility allowed mica separation, recovery, recyclability, and integration within new PEO/Mica films, resulted in preserved triboelectric outputs. The PEO/Mica composite delivers exceptional sustainable, recyclable, and tribo-positive attributes, serving as an excellent energy harvesting solution.

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采用聚氧化乙烯/云母三正复合材料的高性能柔性绿色三电纳米发电机

创新新型、绿色、可生物降解和可回收的聚合物对于开发环境可持续解决方案、消除污染和微塑料积累问题至关重要。本研究通过首次加入粘土无机填料，显著增强了聚氧化乙烯（PEO）的三正极性，从而创造出一种新型可生物降解复合三电材料。这种低成本的复合材料由可生物降解的聚氧化乙烯基质、丰富的天然麝香云母微孔填料和简单的材料集成制造方法组成。4 厘米厚的 PEO/Mica 薄膜与聚四氟乙烯（PTFE）配对，产生的峰-峰电压、电流密度和转移电荷密度分别为 296 V、24.2 mA 和 110.3 µC。将薄膜厚度减小到 40 微米后，电子输出显著增强，产生的峰-峰电压和瞬时功率密度分别为 424 V 和 12.1 W。云母的加入大大提高了介电常数，促进了出色的三电性能。这种复合材料的长期稳定性和灵活性为自供电小型电子系统提供了显著优势。此外，由于 PEO 易于水溶，因此云母可以分离、回收、循环利用，并集成到新的 PEO/Mica 薄膜中，从而保持了三电输出。PEO/Mica 复合材料具有卓越的可持续、可回收和三电属性，是一种出色的能量收集解决方案。

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来源期刊

Applied Materials Today Materials Science-General Materials Science

CiteScore

14.90

自引率

3.60%

发文量

393

审稿时长

26 days

期刊介绍： Journal Name: Applied Materials Today Focus: Multi-disciplinary, rapid-publication journal Focused on cutting-edge applications of novel materials Overview: New materials discoveries have led to exciting fundamental breakthroughs. Materials research is now moving towards the translation of these scientific properties and principles.