Tough soldering for stretchable electronics by small-molecule modulated interfacial assemblies
Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review
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Original language | English |
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Article number | 7723 |
Journal / Publication | Nature Communications |
Volume | 14 |
Online published | 24 Nov 2023 |
Publication status | Published - 2023 |
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DOI | DOI |
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Link to Scopus | https://www.scopus.com/record/display.uri?eid=2-s2.0-85177753640&origin=recordpage |
Permanent Link | https://scholars.cityu.edu.hk/en/publications/publication(88e48779-ed35-4b79-8d45-05efe5b008a9).html |
Abstract
The rapid-developing soft robots and wearable devices require flexible conductive materials to maintain electric functions over a large range of deformations. Considerable efforts are made to develop stretchable conductive materials; little attention is paid to the frequent failures of integrated circuits caused by the interface mismatch of soft substrates and rigid silicon-based microelectronics. Here, we present a stretchable solder with good weldability that can strongly bond with electronic components, benefiting from the hierarchical assemblies of liquid metal particles, small-molecule modulators, and non-covalently crosslinked polymer matrix. Our self-solder shows high conductivity (>2×105 S m−1), extreme stretchability (~1000%, and >600% with chip-integrated), and high toughness (~20 MJ m−3). Additionally, the dynamic interactions within our solder’s surface and interior enable a range of unique features, including ease of integration, component substitution, and circuit recyclability. With all these features, we demonstrated an application as thermoforming technology for three-dimensional (3D) conformable electronics, showing potential in reducing the complexity of microchip interfacing, as well as scalable fabrication of chip-integrated stretchable circuits and 3D electronics. © The Author(s) 2023.
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Citation Format(s)
Tough soldering for stretchable electronics by small-molecule modulated interfacial assemblies. / Ai, Liqing; Lin, Weikang; Cao, Chunyan et al.
In: Nature Communications, Vol. 14, 7723, 2023.
In: Nature Communications, Vol. 14, 7723, 2023.
Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review
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