Vibration energy harvester with piezoelectric properties using polyurea thin films

Masahiro Morimoto; Yuichi Tsujiura; Yasuko Koshiba; Isaku Kanno; Kenji Ishida

doi:10.1080/15421406.2017.1351287

Vibration energy harvester with piezoelectric properties using polyurea thin films

Masahiro Morimoto^*, Yuichi Tsujiura, Yasuko Koshiba, Isaku Kanno, Kenji Ishida

^*Corresponding author for this work

Electric and Electronic Engineering

Research output: Contribution to journal › Article › peer-review

8 Scopus citations

Abstract

We investigated the piezoelectric properties of a vibration energy harvester using large-area, flexible cantilevers composed of polyurea thin films. The piezoelectric constant d₃₁ of the polyurea films was measured based on the relationship between the displacement and applied voltage of large-aspect-ratio cantilevers. Centimeter-scale unimorph cantilevers were fabricated, and their energy harvester performance was evaluated by vibrating them. The power generation of the cantilevers with controlled forms was 2.2 mV at 50.5 Hz (i.e., vibration generation could be efficiently realized at environmental vibrations under 100 Hz).

Original language	English
Pages (from-to)	188-193
Number of pages	6
Journal	Molecular Crystals and Liquid Crystals
Volume	653
Issue number	1
DOIs	https://doi.org/10.1080/15421406.2017.1351287
State	Published - 2017/08/13

Keywords

Energy harvester
piezoelectric
polyurea
thin films

ASJC Scopus subject areas

General Chemistry
General Materials Science
Condensed Matter Physics

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title = "Vibration energy harvester with piezoelectric properties using polyurea thin films",

abstract = "We investigated the piezoelectric properties of a vibration energy harvester using large-area, flexible cantilevers composed of polyurea thin films. The piezoelectric constant d31 of the polyurea films was measured based on the relationship between the displacement and applied voltage of large-aspect-ratio cantilevers. Centimeter-scale unimorph cantilevers were fabricated, and their energy harvester performance was evaluated by vibrating them. The power generation of the cantilevers with controlled forms was 2.2 mV at 50.5 Hz (i.e., vibration generation could be efficiently realized at environmental vibrations under 100 Hz).",

keywords = "Energy harvester, piezoelectric, polyurea, thin films",

author = "Masahiro Morimoto and Yuichi Tsujiura and Yasuko Koshiba and Isaku Kanno and Kenji Ishida",

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T1 - Vibration energy harvester with piezoelectric properties using polyurea thin films

AU - Morimoto, Masahiro

AU - Tsujiura, Yuichi

AU - Koshiba, Yasuko

AU - Kanno, Isaku

AU - Ishida, Kenji

PY - 2017/8/13

Y1 - 2017/8/13

N2 - We investigated the piezoelectric properties of a vibration energy harvester using large-area, flexible cantilevers composed of polyurea thin films. The piezoelectric constant d31 of the polyurea films was measured based on the relationship between the displacement and applied voltage of large-aspect-ratio cantilevers. Centimeter-scale unimorph cantilevers were fabricated, and their energy harvester performance was evaluated by vibrating them. The power generation of the cantilevers with controlled forms was 2.2 mV at 50.5 Hz (i.e., vibration generation could be efficiently realized at environmental vibrations under 100 Hz).

AB - We investigated the piezoelectric properties of a vibration energy harvester using large-area, flexible cantilevers composed of polyurea thin films. The piezoelectric constant d31 of the polyurea films was measured based on the relationship between the displacement and applied voltage of large-aspect-ratio cantilevers. Centimeter-scale unimorph cantilevers were fabricated, and their energy harvester performance was evaluated by vibrating them. The power generation of the cantilevers with controlled forms was 2.2 mV at 50.5 Hz (i.e., vibration generation could be efficiently realized at environmental vibrations under 100 Hz).

KW - Energy harvester

KW - piezoelectric

KW - polyurea

KW - thin films

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JO - Molecular Crystals and Liquid Crystals

JF - Molecular Crystals and Liquid Crystals

IS - 1

ER -

Vibration energy harvester with piezoelectric properties using polyurea thin films

Abstract

Keywords

ASJC Scopus subject areas

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