Advanced Materials2026,Vol.38Issue(13) :e72292.1-e72292.14.DOI:10.1002/adma.72292

Interconnects for Ultra-Stable Stretchable Multilayer Electronic Systems Interconnects for Ultra-Stable Stretchable Multilayer Electronic Systems

Wenbo Zhao Yifan Deng Binlong Deng Qinghe Cao Yu Zhang Fan Bu Sufeng Zhou Jipeng Chen Mingzhu Zhu Cao Guan
Advanced Materials2026,Vol.38Issue(13) :e72292.1-e72292.14.DOI:10.1002/adma.72292

Interconnects for Ultra-Stable Stretchable Multilayer Electronic Systems Interconnects for Ultra-Stable Stretchable Multilayer Electronic Systems

Wenbo Zhao 1Yifan Deng 2Binlong Deng 3Qinghe Cao 1Yu Zhang 1Fan Bu 1Sufeng Zhou 1Jipeng Chen 1Mingzhu Zhu 3Cao Guan1
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作者信息

  • 1. Institute of Flexible Electronics, Northwestern Polytechnical University, Xi’an, China||Key laboratory of Flexible Electronics of Zhejiang Province, Ningbo Institute of Northwestern Polytechnical University, Ningbo, China
  • 2. Institute of Flexible Electronics, Northwestern Polytechnical University, Xi’an, China
  • 3. School of Astronautics, Northwestern Polytechnical University, Xi’an, China
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Abstract

Stretchable multilayer electronic systems hold transformative potential for next-generation wearable electronics, soft robotics, and human-machine interfaces. However, the stretchability and stability are severely hindered by the interfacial mechanical and electrical mismatch of different components. Herein, by simultaneously combining modulus-engineered substrate with vertical soft interconnects, we report a multilayer electronic system design with both high stretchability and stability. The homologous soft-bridge and rigid-island design effectively reduces modulus mismatch and facilitates interfacial bonding, and the raw/hybrid liquid metal-based vertical interconnects efficiently alleviate Poisson effect thus ensuring stable mechanical and electrical connections. As a result, such engineered multilayer electronics demonstrate high stretchability (800%strain limit) and high stability (over 4000 cycles at 100%strain) that outperform the results from previously reported multilayered flexible electronic devices. A three-layer stretchable electronic system performs well as an electronic skin on a soft robot, and a wireless battery-integrated intelligent haptic system is also demonstrated.

Key words

modulus-engineered substrates/stretchable multilayer electronic systems/stretchability/stability/vertical interconnects

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出版年

2026
Advanced Materials

Advanced Materials

ISSN:0935-9648
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