Litcius/Paper detail

Strain-Insensitive Stretchable Fiber Conductors Based on Highly Conductive Buckled Shells for Wearable Electronics

Kukro Yoon, Sanghyeon Lee, Donghun Shim, Minkyu Lee, Sungjoon Cho, Chaebeen Kwon, Chihyeong Won, Seung-Min Lee, Jinhan Lee, Jinhan Lee, Han Hee Jung, Kyung‐In Jang, Jaehong Lee, Jaehong Lee, Taeyoon Lee

2023ACS Applied Materials & Interfaces28 citationsDOI

Abstract

Based on their high applicability to wearable electronics, fiber-based stretchable electronics have been developed via different strategies. However, the electrical conductivity of a fiber electrode is severely degraded, following deformation upon stretching. Despite the introduction of conductive buckled structures to resolve this issue, there still exist limitations regarding the simultaneous realizations of high conductivity and stretchability. Here, we exploit the dense distribution of the Ag nanoparticle (AgNP) network in polyurethane (PU) to fabricate a strain-insensitive stretchable fiber conductor comprising highly conductive buckled shells via a facile chemical process. These buckled AgNPs/PU fibers exhibit stable and reliable electrical responses across a wide range (tensile strain = ∼200%), in addition to their high electrical conductivity (26,128 S/m) and quality factor ( Q = 2.29). Particularly, the negligible electrical hysteresis and excellent durability (>10,000 stretching–releasing cycles) of the fibers demonstrate their high applicability to wearable electronics. Furthermore, we develop buckled fiber-based pH sensors exhibiting stable, repeatable, and highly distinguishable responses (changing pH is from 4 to 8, response time is 5–6 s) even under 100% tensile strain. The buckled AgNPs/PU fibers represent a facile strategy for maintaining the stable electrical performances of fiber electrodes across the strain range of human motion for wearable applications.

Topics & Concepts

Materials scienceElectrical conductorStretchable electronicsStrain (injury)Wearable technologyElectronicsComposite materialFiberWearable computerElectrically conductiveFlexible electronicsOptoelectronicsNanotechnologyElectrical engineeringComputer scienceEngineeringMedicineEmbedded systemInternal medicineAdvanced Sensor and Energy Harvesting MaterialsAdvanced Materials and MechanicsModular Robots and Swarm Intelligence