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Homogeneity of liquid metal polymer composites: impact on mechanical, electrical, and sensing behavior

Anh Hoang, Omar Faruqe, Elizabeth Bury, Chanyeop Park, Amanda Koh

2023Soft Matter16 citationsDOI

Abstract

) results in the settling of galinstan droplets before curing, especially in matrices with low viscosity, leading to an inhomogeneous composition that may affect material performance. To address this, an innovative approach was introduced that enabled a spatially uniform (homogeneous) dispersion of galinstan droplets in PDMS while preserving the non-conductive nature of the composites. Work described herein evaluates the influence of homogeneity on electrical and mechanical properties as well as performance of LMPCs as pressure sensors. It was found that homogeneity has minimal effect on permittivity and dielectric loss but exhibits a complex behavior with respect to other parameters, including dielectric strength, which is often exacerbated at higher concentrations (≥50 vol%). These findings provide valuable insight that contributes to improved control over the material properties of LMPCs and expands their potential applications in soft robotics and stretchable electronics.

Topics & Concepts

Homogeneity (statistics)Materials scienceComposite materialElectrical conductorDielectricPolymerStretchable electronicsLiquid metalElectronicsConductive polymerElectrical engineeringOptoelectronicsComputer scienceMachine learningEngineeringAdvanced Sensor and Energy Harvesting MaterialsConducting polymers and applicationsDielectric materials and actuators
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