Publication | Closed Access
A microcrystalline cellulose ingrained polydimethylsiloxane triboelectric nanogenerator as a self-powered locomotion detector
73
Citations
24
References
2017
Year
EngineeringEnergy EfficiencyEnergy ConversionWearable TechnologyBiomedical EngineeringSelf-powered Locomotion DetectorFlexible SensorMechanical EnergyNanoengineeringSoft RoboticsMicrocrystalline CelluloseConventional BatteriesEnergy Storage DeviceElectroactive MaterialEnergy HarvestingWearable ElectronicsMechanical BatteriesEnergy StoragePolydimethylsiloxane Triboelectric NanogeneratorElectric BatteryFlexible ElectronicsPiezoelectric NanogeneratorsNano Electro Mechanical SystemBatteriesTechnologySelf-powered Nanodevices
Scavenging of ambient dissipated mechanical energy addresses the limitations of conventional batteries by providing an auxiliary voltaic power source, and thus has significant potential for self-powered and wearable electronics.
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