Thermoplastic Processing of Elastomeric Conductors with Slippery Interfaces
발표자
정현석 (서울대학교)
연구책임자
강지형 (서울대학교)
초록
내용
Liquid metal polymer composites (LMPC) are gaining attention in soft robotics, skin electronics, and implantable devices due to their excellent conductivity and stretchability, making them ideal for stretchable conductors. However, composite inks based on liquid monomers or polymer solutions present challenges for 3D printing due to their fluidity. Additionally, in fused deposition modeling (FDM) 3D printing, the high stress during extrusion can damage the LMP's oxide shell, leading to leakage, process contamination, and potential electrical shorts. Here, I present a leakage-free additive manufacturing process for liquid metal polymer composites, enabling the customized 3D printing of elastic conductors. We introduced slippery interfaces between all components of LMPC, enhancing LMPC dynamicity. This new strategy facilitated the direct printing of 3D circuits within multi-material objects, selectively imparting electrical conductivity and enhancing design flexibility.