The first multifunctional elastic (650) fiber that can scavenge biomechanical energyelectromagnetic energy from surrounding electrical appliances is developed as a wearable power providervarious self-powered sensors. These findings optimally unify mechanical freedomthe capability of harvesting biomechanical energyelectromagnetic energy from surrounding electrical appliances as well as self-powered sensing in a single fiber.

This is the first energy-harvesting fiber that simultaneously possesses inherent elasticity ( 650 strain)the ability to harvest biomechanical energyelectromagnetic energy from surrounding electrical appliances for wearable electronicsactive sensing uses. Particularly, this is the first report that a fiber can convert dielectric-loss energy from surrounding electric/electronic appliances to available energy of wearable gadgets. The achieving stretchability also sets a new record high in energy-harvesting fibers.

Wearablestretchable electronics are attracting immense interest. This is the first energy-harvestingself-powered sensing fiber that simultaneously possesses inherent elasticity ( 650 strain)the ability to harvest biomechanical energyelectromagnetic energy from surrounding electrical appliances. The new advancements in stretchable/wearable energysensing technologies can advance a wide range of emerging wearable technologies, personal electronics, smart clothing,sensing technologies

天使投資人、策略合作夥伴