Self-Powered Wearable TENG Sensors Using NiCo2O4/ZnO Cofiller-Embedded Multilayered Electrospun Fiber-Mat for Human–Machine Interaction DOI
Bithika Mandal, Shailendra Kumar, Animesh Maji

и другие.

ACS Applied Materials & Interfaces, Год журнала: 2025, Номер unknown

Опубликована: Май 22, 2025

In the Internet of Things era, research is ramping up to develop sustainable green technologies combat environmental degradation and depletion fossil fuels. A high-performance flexible Triboelectric Nanogenerator (TENG) has been developed tested fabricate wearable bioelectronics. The TENG device comprises two triboelectric layers: a stacked multilayered composite fiber-mat with poly(vinylidene difluoride) Super P carbon black intercalated textured Polydimethylsiloxane film. for potential applications such as energy harvesting, which can scavenge from different low-frequency mechanical sources walking, running, ambient vibrations, etc. maximum ∼127 V open-circuit voltage 9.4 μA short-circuit current are obtained PNZ15 15% NiCo2O4/ZnO cofiller-loaded (PNZ15). power output 710 W under 4 MΩ load resistance density ∼178 μW cm-2 achieved, ∼225% greater than that PNZ0 bare fiber-mat. quantity dielectric filler significantly improves performance fabricated device. An assembled compact surface area 2 × cm2 light LEDs drive small electronic gadgets. synergistic outcome mainly used sensor by integrating into smart nanogadgets, be Human-Machine Interactions. work significant in self-powered gadgets biomechanical energy-harvesting technology. This aims provide strategies outcomes harvesting using

Язык: Английский

Self-Powered Wearable TENG Sensors Using NiCo2O4/ZnO Cofiller-Embedded Multilayered Electrospun Fiber-Mat for Human–Machine Interaction DOI
Bithika Mandal, Shailendra Kumar, Animesh Maji

и другие.

ACS Applied Materials & Interfaces, Год журнала: 2025, Номер unknown

Опубликована: Май 22, 2025

In the Internet of Things era, research is ramping up to develop sustainable green technologies combat environmental degradation and depletion fossil fuels. A high-performance flexible Triboelectric Nanogenerator (TENG) has been developed tested fabricate wearable bioelectronics. The TENG device comprises two triboelectric layers: a stacked multilayered composite fiber-mat with poly(vinylidene difluoride) Super P carbon black intercalated textured Polydimethylsiloxane film. for potential applications such as energy harvesting, which can scavenge from different low-frequency mechanical sources walking, running, ambient vibrations, etc. maximum ∼127 V open-circuit voltage 9.4 μA short-circuit current are obtained PNZ15 15% NiCo2O4/ZnO cofiller-loaded (PNZ15). power output 710 W under 4 MΩ load resistance density ∼178 μW cm-2 achieved, ∼225% greater than that PNZ0 bare fiber-mat. quantity dielectric filler significantly improves performance fabricated device. An assembled compact surface area 2 × cm2 light LEDs drive small electronic gadgets. synergistic outcome mainly used sensor by integrating into smart nanogadgets, be Human-Machine Interactions. work significant in self-powered gadgets biomechanical energy-harvesting technology. This aims provide strategies outcomes harvesting using

Язык: Английский

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