A hierarchically porous AgNW-TPU composite with “pores-in-pore” architecture for bifunctional flexible sensors and energy harvesters
Rui Tao, Feng Yang, Cong Chang, Chengding Gu, Chuncai Shan, Xu Zhang, Yongyun Mao
Topics & Concepts
Materials scienceEnergy harvestingFlexibility (engineering)Sensitivity (control systems)Triboelectric effectNanotechnologyPorosityComposite numberElectrical conductorNanogeneratorSupercapacitorWearable computerMechanical energyNanorodFabricationWearable technologyGrapheneNanoporeOptoelectronicsThermoplastic polyurethaneEnergy transformationNanofiberExtensibilityEnergy (signal processing)BifunctionalEnergy conversion efficiencyPower (physics)ElectrospinningScalabilityElastic energyPower densityWork (physics)Energy storageNanomaterialsComputer scienceStructural health monitoringAdvanced Sensor and Energy Harvesting MaterialsConducting polymers and applicationsAdvanced Materials and Mechanics