Bruno C. dos Santos scite author profile

Integration of solid-state microchips into soft-matter, and stretchable printed electronics has been the biggest challenge against their scalable fabrication. We introduce, Pol-Gel, a simple technique for self-soldering, self-encapsulation, and self-healing, that allows low cost, scalable, and rapid fabrication of hybrid microchip-integrated ultra-stretchable circuits. After digitally printing the circuit, and placing the microchips, we trigger a Polymer-Gel transition in physically cross-linked block copolymers substrate, and silver liquid metal composite ink, by exposing the circuits to the solvent vapor. Once in the gel state, microchips penetrate to the ink and the substrate (Self-Soldering), and the ink penetrates to the substrate (Self-encapsulation). Maximum strain tolerance of ~1200% for printed stretchable traces, and >500% for chip-integrated soft circuits is achieved, which is 5x higher than the previous works. We demonstrate condensed soft-matter patches and e-textiles with integrated sensors, processors, and wireless communication, and repairing of a fully cut circuits through Pol-Gel.

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Additive manufacturing of zirconia ceramics by material jetting

Turon-Viñas

Santos

Hooreweder

et al. 2021

Journal of the European Ceramic Society

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Application of Kubelka-Munk model on the optical characterization of translucent dental zirconia

Schabbach

Santos

Bortoli

et al. 2021

Materials Chemistry and Physics

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Translucent multi-layered zirconia: Sandblasting effect on optical and mechanical properties

et al. 2023

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