Litcius/Paper detail

Lanternarene‐Based Self‐Sorting Double‐Network Hydrogels for Flexible Strain Sensors

Zi‐Qi Gao, Chuan‐Hong Liu, Shuang‐Long Zhang, Shenghua Li, Shenghua Li, Li‐Wei Gao, Rui‐Lin Chai, Tuo‐Yu Zhou, Xu‐Juan Ma, Xin Li, Shibo Li, Shibo Li, Jin Zhao, Qian Zhao

2024Small34 citationsDOIOpen Access PDF

Abstract

Abstract Conductive flexible hydrogels have attracted immense attentions recently due to their wide applications in wearable sensors. However, the poor mechanical properties of most conductive polymer limit their utilizations. Herein, a double network hydrogel is fabricated via a self‐sorting process with cationic polyacrylamide as the first flexible network and the lantern[3 3 ]arene‐based hydrogen organic framework nanofibers as the second rigid network. This hydrogel is endowed with good conductivity (0.25 S m −1 ) and mechanical properties, such as large Young's modulus (31.9 MPa), fracture elongation (487%) and toughness (6.97 MJ m −3 ). The stretchability of this hydrogel is greatly improved after the kirigami cutting, which makes it can be used as flexible strain sensor for monitoring human motions, such as bending of fingers, wrist and elbows. This study not only provides a valuable strategy for the construction of double network hydrogels by lanternarene, but also expands the application of the macrocycle hydrogels to flexible electronics.

Topics & Concepts

Self-healing hydrogelsMaterials scienceNanofiberElectrical conductorToughnessComposite materialBendingNanotechnologyWearable computerModulusComputer sciencePolymer chemistryEmbedded systemAdvanced Sensor and Energy Harvesting MaterialsConducting polymers and applicationsAdvanced Materials and Mechanics