Litcius/Paper detail

Ion-cluster-mediated ultrafast self-healable ionoconductors for reconfigurable electronics

Yong Min Kim, Jin Han Kwon, Seonho Kim, U Hyeok Choi, Hong Chul Moon

2022Nature Communications59 citationsDOIOpen Access PDF

Abstract

Implementing self-healing capabilities in a deformable platform is one of the critical challenges for achieving future wearable electronics with high durability and reliability. Conventional systems are mostly based on polymeric materials, so their self-healing usually proceeds at elevated temperatures to promote chain flexibility and reduce healing time. Here, we propose an ion-cluster-driven self-healable ionoconductor composed of rationally designed copolymers and ionic liquids. After complete cleavage, the ionoconductor can be repaired with high efficiency (∼90.3%) within 1 min even at 25 °C, which is mainly attributed to the dynamic formation of ion clusters between the charged moieties in copolymers and ionic liquids. By taking advantages of the superior self-healing performance, stretchability (∼1130%), non-volatility (over 6 months), and ability to be easily shaped as desired through cutting and re-assembly protocol, reconfigurable, deformable light-emitting electroluminescent displays are successfully demonstrated as promising electronic platforms for future applications.

Topics & Concepts

Cluster (spacecraft)ElectronicsUltrashort pulseIonNanotechnologyMaterials scienceComputer scienceEngineeringChemistryPhysicsElectrical engineeringOperating systemLaserOpticsOrganic chemistryAdvanced Memory and Neural ComputingAdvanced Sensor and Energy Harvesting MaterialsAnalytical Chemistry and Sensors