Effects of mechanical deformation on energy conversion efficiency of piezoelectric nanogenerators

Author: Yoo Jinho   Cho Seunghyeon   Kim Wook   Kwon Jang-Yeon   Kim Hojoong   Kim Seunghyun   Chang Yoon-Suk   Kim Chang-Wan   Choi Dukhyun  

Publisher: IOP Publishing

E-ISSN: 1361-6528|26|27|275402-275409

ISSN: 0957-4484

Source: Nanotechnology, Vol.26, Iss.27, 2015-07, pp. : 275402-275409

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Abstract

Piezoelectric nanogenerators (PNGs) are capable of converting energy from various mechanical sources into electric energy and have many attractive features such as continuous operation, replenishment and low cost. However, many researchers still have studied novel material synthesis and interfacial controls to improve the power production from PNGs. In this study, we report the energy conversion efficiency (ECE) of PNGs dependent on mechanical deformations such as bending and twisting. Since the output power of PNGs is caused by the mechanical strain of the piezoelectric material, the power production and their ECE is critically dependent on the types of external mechanical deformations. Thus, we examine the output power from PNGs according to bending and twisting. In order to clearly understand the ECE of PNGs in the presence of those external mechanical deformations, we determine the ECE of PNGs by the ratio of output electrical energy and input mechanical energy, where we suggest that the input energy is based only on the strain energy of the piezoelectric layer. We calculate the strain energy of the piezoelectric layer using numerical simulation of bending and twisting of the PNG. Finally, we demonstrate that the ECE of the PNG caused by twisting is much higher than that caused by bending due to the multiple effects of normal and lateral piezoelectric coefficients. Our results thus provide a design direction for PNG systems as high-performance power generators.

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