Litcius/Paper detail

Stretchable and negative-Poisson-ratio porous metamaterials

Xiaoyu Zhang, Qi Sun, Xing Liang, Puzhong Gu, Zhenyu Hu, Xiao Yang, M. Liu, Zejun Sun, Jia Huang, Guangming Wu, Guoqing Zu

2024Nature Communications124 citationsDOIOpen Access PDF

Abstract

Highly stretchable porous materials are promising for flexible electronics but their fabrication is a great challenge. Herein, several kinds of highly stretchable conductive porous elastomers with low or negative Poisson's ratios are achieved by uniaxial, biaxial, and triaxial hot-pressing strategies. The reduced graphene oxide/polymer nanocomposite elastomers with folded porous structures obtained by uniaxial hot pressing exhibit high stretchability up to 1200% strain. Furthermore, the meta-elastomers with reentrant porous structures combining high biaxial (or triaxial) stretchability and negative Poisson's ratios are achieved by biaxial (or triaxial) hot pressing. The resulting elastomer-based wearable strain sensors exhibit an ultrawide response range (0-1200%). The materials can be applied for smart thermal management and electromagnetic interference shielding, which are achieved by regulating the porous microstructures via stretching. This work provides a versatile strategy to highly stretchable and negative-Poisson-ratio porous materials with promising features for various applications such as flexible electronics, thermal management, electromagnetic shielding, and energy storage.

Topics & Concepts

Materials scienceAuxeticsStretchable electronicsElastomerPorosityComposite materialGrapheneElectromagnetic shieldingFabricationPorous mediumPoisson's ratioMetamaterialNanocompositeElectronicsNanotechnologyOptoelectronicsPoisson distributionMathematicsStatisticsPhysical chemistryChemistryAlternative medicinePathologyMedicineAdvanced Sensor and Energy Harvesting MaterialsElectromagnetic wave absorption materialsDielectric materials and actuators