Pressure-constrained sonication activation of flexible printed metal circuit

Lingxiao Cao; Zhonghao Wang; Daiwei Hu; Haoxuan Dong; Chunchun Qu; Yi Zheng; Chao Yang; Rui Zhang; Chunxiao Xing; Zhen Li; Zhe Xin; Du Chen; Zhenghe Song; Zhizhu He

doi:10.1038/s41467-024-52873-7

Nature Communications (Sep 2024)

Pressure-constrained sonication activation of flexible printed metal circuit

Lingxiao Cao,
Zhonghao Wang,
Daiwei Hu,
Haoxuan Dong,
Chunchun Qu,
Yi Zheng,
Chao Yang,
Rui Zhang,
Chunxiao Xing,
Zhen Li,
Zhe Xin,
Du Chen,
Zhenghe Song,
Zhizhu He

Affiliations

Lingxiao Cao: Center for Agricultural Flexible Electronics Technology, College of Engineering, China Agricultural University
Zhonghao Wang: Center for Agricultural Flexible Electronics Technology, College of Engineering, China Agricultural University
Daiwei Hu: Center for Agricultural Flexible Electronics Technology, College of Engineering, China Agricultural University
Haoxuan Dong: Center for Agricultural Flexible Electronics Technology, College of Engineering, China Agricultural University
Chunchun Qu: Center for Agricultural Flexible Electronics Technology, College of Engineering, China Agricultural University
Yi Zheng: Center for Agricultural Flexible Electronics Technology, College of Engineering, China Agricultural University
Chao Yang: Center for Agricultural Flexible Electronics Technology, College of Engineering, China Agricultural University
Rui Zhang: Center for Agricultural Flexible Electronics Technology, College of Engineering, China Agricultural University
Chunxiao Xing: Center for Agricultural Flexible Electronics Technology, College of Engineering, China Agricultural University
Zhen Li: Center for Agricultural Flexible Electronics Technology, College of Engineering, China Agricultural University
Zhe Xin: Center for Agricultural Flexible Electronics Technology, College of Engineering, China Agricultural University
Du Chen: Center for Agricultural Flexible Electronics Technology, College of Engineering, China Agricultural University
Zhenghe Song: Center for Agricultural Flexible Electronics Technology, College of Engineering, China Agricultural University
Zhizhu He: Center for Agricultural Flexible Electronics Technology, College of Engineering, China Agricultural University

DOI: https://doi.org/10.1038/s41467-024-52873-7
Journal volume & issue: Vol. 15, no. 1
pp. 1 – 12

Abstract

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Abstract Metal micro/nanoparticle ink-based printed circuits have shown promise for promoting the scalable application of flexible electronics due to enabling superhigh metallic conductivity with cost-effective mass production. However, it is challenging to activate printed metal-particle patterns to approach the intrinsic conductivity without damaging the flexible substrate, especially for high melting-point metals. Here, we report a pressure-constrained sonication activation (PCSA) method of the printed flexible circuits for more than dozens of metal (covering melting points from room temperature to 3422 °C) and even nonmetallic inks, which is integrated with the large-scale roll-to-roll process. The PCSA-induced synergistic heat-softening and vibration-bonding effect of particles can enable multilayer circuit interconnection and join electronic components onto printed circuits without solder within 1 s at room temperature. We demonstrate PCSA-based applications of 3D flexible origami electronics, erasable and foldable double-sided electroluminescent displays, and custom-designed and large-area electronic textiles, thus indicating its potential for universality in flexible electronics.

Published in Nature Communications

ISSN: 2041-1723 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Science
Website: https://www.nature.com/ncomms/

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