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Mechanoresponsive Polymerized Liquid Metal Networks.

Advanced materials (Deerfield Beach, Fla.) (2019-08-14)
Carl J Thrasher, Zachary J Farrell, Nicholas J Morris, Carson L Willey, Christopher E Tabor
ABSTRACT

Room-temperature liquid metals, such as nontoxic gallium alloys, show enormous promise to revolutionize stretchable electronics for next-generation soft robotic, e-skin, and wearable technologies. Core-shell particles of liquid metal with surface-bound acrylate ligands are synthesized and polymerized together to create cross-linked particle networks comprising >99.9% liquid metal by weight. When stretched, particles within these polymerized liquid metal networks (Poly-LMNs) rupture and release their liquid metal payload, resulting in a rapid 108 -fold increase in the network's conductivity. These networks autonomously form hierarchical structures that mitigate the deleterious effects of strain on electronic performance and give rise to emergent properties. Notable characteristics include nearly constant resistances over large strains, electronic strain memory, and increasing volumetric conductivity with strain to over 20 000 S cm-1 at >700% elongation. Furthermore, these Poly-LMNs exhibit exceptional performance as stretchable heaters, retaining 96% of their areal power across relevant physiological strains. Remarkable electromechanical properties, responsive behaviors, and facile processing make Poly-LMNs ideal for stretchable power delivery, sensing, and circuitry.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
11-Phosphonoundecyl acrylate
Sigma-Aldrich
2-Hydroxyethyl acrylate, 96%, contains 200-650 ppm monomethyl ether hydroquinone as inhibitor