Design and fabrication of a spiral electrode triboelectric nanogenerator and application as zero power dynamic sensor

Abstract

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Harvesting energy from environmental motions is an efficient method to prepare permanent power supplies for intelligent wireless systems. In this paper, a single spiral electrode triboelectric nanogenerator (TENG) is fabricated and investigated for energy harvesting from multi-directional sliding motions. The device is intended to be also used as a self-powered dynamic velocity sensor. In the first step, four samples are fabricated and characterized by applying 2 Hz sliding motions. The results show an increase in the output power from 1.53 to 20.72 nW, for a device with 4 to 20 turns. To compare the results, the effect of increasing the output power using a parallel array is also studied. In the next step, applications of the device as velocity and position sensors are investigated. A linear dependence between the input and output of the sensor is noticed for the device with 8, and 16 spiral turns. Finally, a circuit modeling for the device is presented, and a trend is suggested for the virtual capacitive behavior of the single electrode TENG.

Keywords

• energy harvesting
• triboelectric
• sliding motions
• spiral electrode
• dynamic zero-power sensor