Arbitrary skin metallization by pencil-writing inspired solid-ink rubbing for advanced energy storage and harvesting

IF 14 1区 化学 Q1 CHEMISTRY, APPLIED
Yonghan Zhou, Zhongfeng Ji, Wenrui Cai, Xuewei He, Ruiying Bao, Xuewei Fu, Wei Yang, Yu Wang
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Abstract

The development of a durable metallic coating on diverse substrates is both intriguing and challenging, particularly in the research of metal-conductive materials for applications such as batteries, soft electronics, and beyond. Herein, by learning from the pencil-writing process, a facile solid-ink rubbing technology (SIR-tech) is invented to address the above challenge. The solid-ink is exampled by rational combination of liquid metal and graphite particles. By harnessing the synergistic effects between rubbing and adhesion, controllable metallic skin is successfully formed onto metals, woods, ceramics, and plastics without limitation in size and shape. Moreover, outperforming pure liquid-metal coating, the composite metallic skin by SIR-tech is very robust due to the self-lamination of graphite nanoplate exfoliated by liquid-metal rubbing. The critical factors controlling the structures-properties of the composite metallic skin have been systematically investigated as well. For applications, the SIR-tech is demonstrated to fabricate high-performance composite current collectors for next-generation batteries without traditional metal foils. Meanwhile, advanced skin-electrodes are further demonstrated for stable triboelectricity generation even under temperature fluctuation from −196 to 120 °C. This facile and highly-flexible SIR-tech may work as a powerful platform for the studies on functional coatings by liquid metals and beyond.

Abstract Image

铅笔书写的任意皮肤金属化激发了固体墨水摩擦的灵感,用于先进的能量储存和收集
在各种基材上开发耐用的金属涂层既有趣又具有挑战性,特别是在电池、软电子等应用的金属导电材料的研究中。本文通过借鉴铅笔书写过程,发明了一种简便的固体墨水摩擦技术(SIR-tech)来解决上述挑战。固体油墨以液态金属与石墨颗粒的合理结合为例。通过利用摩擦和粘附之间的协同效应,可以成功地在金属、木材、陶瓷和塑料上形成不受尺寸和形状限制的可控金属蒙皮。此外,与纯液态金属涂层相比,采用sir技术制备的复合金属蒙皮具有很强的鲁棒性,这是由于液态金属摩擦剥落的石墨纳米板的自层合。对控制复合金属蒙皮结构性能的关键因素进行了系统的研究。在应用方面,sir技术被证明可以为下一代电池制造高性能复合集流器,而不需要传统的金属箔。同时,先进的皮肤电极进一步证明了即使在- 196至120°C的温度波动下也能稳定地摩擦发电。这种简单而高度灵活的sir技术可以为液态金属及其他功能涂层的研究提供一个强大的平台。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
23.60
自引率
0.00%
发文量
2875
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