Prestrain-Enabled Stretchable and Conductive Aerogel Fibers
Hao Yin, Jian Zhou

TL;DR
This paper introduces a new method to create stretchable and conductive aerogel fibers for use in wearable electronics.
Contribution
The novel prestrain-enabled coaxial architecture allows brittle aerogels to become stretchable while maintaining conductivity.
Findings
TPE-wrapped aerogel fibers can stretch up to 250% while retaining electrical function.
Resistance changes are minimal and stable at low strains (<60%) and fully recoverable at higher strains.
Abstract
Aerogels combine ultralow density with high surface area, yet their brittle, open networks preclude tensile deformation and hinder integration into wearable electronics. Here we introduce a prestrain-enabled coaxial architecture that converts a brittle conductive aerogel into a highly stretchable fiber. A porous thermoplastic elastomer (TPE) hollow sheath is wet-spun using a sacrificial lignin template to ensure solvent exchange and robust encapsulation. Conductive polymer-based precursor dispersions are infused into prestretched TPE tubes, frozen, and lyophilized; releasing the prestretch then programs a buckled aerogel core that unfolds during elongation without catastrophic fracture. The resulting TPE-wrapped aerogel fibers exhibit reversible elongation up to 250% while retaining electrical function. At low strains (<60%), resistance changes are small and stable (ΔR/R0 < 0.04); at…
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Taxonomy
TopicsAdvanced Sensor and Energy Harvesting Materials · Aerogels and thermal insulation · Surface Modification and Superhydrophobicity
