Charge storage coating based triboelectric nanogenerator and its applications in self-powered anticorrosion and antifouling

IF 2.5 4区 材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY
Zhitao Zhang, Yupeng Liu, Min Feng, Nannan Wang, Changhe Du, Shu Peng, Yufei Guo, Yongjian Liu, Ying Liu, Daoai Wang
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Abstract

As a novel energy-harvesting device, a triboelectric nanogenerator (TENG) can harvest almost all mechanical energy and transform it into electrical energy, but its output is low. Although the micro-nano structures of triboelectrode surfaces can improve their output efficiency, they lead to high costs and are not suitable for large-scale applications. To address this problem, we developed a novel TENG coating with charge-storage properties. In this study, we modified an acrylic resin, a friction material, with nano-BaTiO3 particles and gas phase fluorination. The charge-trapping ability of nanoparticles was used to improve the output of TENG. The short-circuit current and the output voltage of coating-based TENGs featuring charge storage and electrification reached 15 µA and 800 V, respectively, without decay for longtime working. On this basis, self-powered anticorrosion and antifouling systems are designed to reduce the open circuit potential of A3 steel by 510 mV and reduce the adhesion rate of algae on the surface of metal materials. This study presents a high-output, stable, coating-based TENG with potential in practical applications for anticorrosion and antifouling.

基于电荷存储涂层的摩擦纳米发电机及其在自供电防腐防污中的应用
摩擦电纳米发电机(TENG)是一种新型的能量收集装置,它可以收集几乎所有的机械能并将其转化为电能,但其输出较低。虽然摩擦电极表面的微纳结构可以提高其输出效率,但其成本高,不适合大规模应用。为了解决这个问题,我们开发了一种具有电荷存储性能的新型TENG涂层。在本研究中,我们用纳米batio3颗粒和气相氟化改性了一种摩擦材料丙烯酸树脂。利用纳米粒子的电荷捕获能力来提高TENG的输出。具有电荷存储和通电功能的涂层型teng的短路电流和输出电压分别达到15µA和800 V,长期工作无衰减。在此基础上,设计自供电防腐防污系统,使A3钢的开路电位降低510 mV,降低藻类在金属材料表面的附着率。该研究提出了一种高产、稳定、基于涂层的TENG,具有防腐和防污的实际应用潜力。
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来源期刊
Frontiers of Materials Science
Frontiers of Materials Science MATERIALS SCIENCE, MULTIDISCIPLINARY-
CiteScore
4.20
自引率
3.70%
发文量
515
期刊介绍: Frontiers of Materials Science is a peer-reviewed international journal that publishes high quality reviews/mini-reviews, full-length research papers, and short Communications recording the latest pioneering studies on all aspects of materials science. It aims at providing a forum to promote communication and exchange between scientists in the worldwide materials science community. The subjects are seen from international and interdisciplinary perspectives covering areas including (but not limited to): Biomaterials including biomimetics and biomineralization; Nano materials; Polymers and composites; New metallic materials; Advanced ceramics; Materials modeling and computation; Frontier materials synthesis and characterization; Novel methods for materials manufacturing; Materials performance; Materials applications in energy, information and biotechnology.
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