GO-Enhanced MXene Sediment-Based Inks Achieve Remarkable Oxidation Resistance and High Conductivity

材料科学 电导率 纳米技术 复合材料 化学工程 工程类 物理化学 化学
作者
Hai Wen,Yunfa Si,Zibo Chen,Yitong Xin,Shaowen Cao,Cheng Chen,Haoran Zu,Daping He
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
卷期号:17 (8): 12731-12738 被引量:5
标识
DOI:10.1021/acsami.4c23060
摘要

MXenes are emerging materials renowned for their exceptional conductivity, abundant functional groups, and excellent solution processability, making them highly promising as conductive-additive-free inks for flexible electronic devices. However, current preparation methods are hampered by low yields of MXene flakes so that substantial waste MXene sediments (MS) are generated. Here, we demonstrate a type of conductive ink with appropriate rheological properties, namely MG inks formulated using MS and graphene oxide (GO), for screen-printing frequency selective surface (FSS). GO facilitates interlayer interactions by covalently cross-linking with MXene flakes, resulting in a denser structure and significantly enhancing the conductivity of the best-performing MG-based ink to 849 S cm-1. Additionally, GO serves as a binder to considerably improve the rheological properties of MS, thus enabling high-quality printing on various substrates. The close stacking of MS and GO not only improves the oxidation resistance but also maintains conductivity above 97% even after 60 days. Furthermore, the MG-based FSS produced via straightforward screen printing demonstrates excellent performance and retains its functionality after 90 days of operation. This MS-based ink formulation represents a strategy of "turning trash into treasure" and highlights the potential of MS for the next generation of electronic devices.
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