Room-temperature high-precision printing of flexible wireless electronics based on MXene inks

Shao, Yuzhou; Wei, Lusong; Wu, Xinyue; Jiang, Chengmei; Yao, Yao; Peng, Bo; Chen, Han; Huangfu, Jiangtao; Ying, Yibin; Zhang, Chuanfang; Ping, Jianfeng

doi:10.1038/s41467-022-30648-2

articleNature CommunicationsJun 9, 2022GOLD OA

Room-temperature high-precision printing of flexible wireless electronics based on MXene inks

YSYuzhou Shao LWLusong Wei XWXinyue Wu CJChengmei Jiang YYYao Yao

Zhejiang University · Sichuan University · +1 more institution

PubMed

Indexed incrossrefdoajpubmed

Abstract

Abstract Wireless technologies-supported printed flexible electronics are crucial for the Internet of Things (IoTs), human-machine interaction, wearable and biomedical applications. However, the challenges to existing printing approaches remain, such as low printing precision, difficulty in conformal printing, complex ink formulations and processes. Here we present a room-temperature direct printing strategy for flexible wireless electronics, where distinct high-performance functional modules (e.g., antennas, micro-supercapacitors, and sensors) can be fabricated with high resolution and further integrated on various flat/curved substrates. The additive-free titanium carbide (Ti 3 C 2 T x ) MXene aqueous inks…

Citation impact

254

total citations

FWCI: 19.53
Percentile: 100%
References: 44

Citations per year

Authors

11

Topics & keywords

Topics

Keywords

Printed electronics
Electronics
Inkwell
Materials science
Flexible electronics
3D printing
Wireless
Nanotechnology

UN Sustainable Development Goals

Affordable and clean energy

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