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Citation |
Jin L, Chen J, Zhang B, Deng W, Zhang L, Zhang H, Huang X, Zhu M, Yang W, Wang ZL. ACS Nano 2016; 10(8): 7874-7881. |
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Copyright |
(Copyright © 2016, American Chemical Society) |
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DOI |
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PMID |
27391273 |
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Abstract |
The rapid development of internet of things and the related sensor technology requires sustainable power sources for their continuous operation. Scavenging and utilizing the ambient environmental energy could be a superior solution. Here, we report a self-powered helmet for emergency, which was powered by the energy converted from ambient mechanical vibration via a hybridized nanogenerator that consists of a triboelectric nanogenerator (TENG) and an electromagnetic generator (EMG). Integrating with transformers and rectifiers, the hybridized nanogenerator can deliver a power density up to 167.22 W/m3, which was demonstrated to light up 1000 commercial light-emitting diodes (LEDs) instantaneously. By wearing the developed safety helmet, equipped with rationally designed hybridized nanogenerator, the harvested vibration energy from natural human motion is also capable of powering a wireless pedometer for real-time transmitting data reporting to personal cell phone. Without adding much extra weight to a commercial one, the developed wearing helmet can be a superior sustainable power source for explorers, engineers, mine-worker under well, as well as and disaster-relief workers, especially in the remote area. This work not only presents a significant step toward energy harvesting from human biomechanical movement, but also greatly expands the applicability of TENGs as power sources for self-sustained electronics. Language: en |