5 years ago

Flexible Capacitive Piezoelectric Sensor with Vertically Aligned Ultralong GaN Wires

Flexible Capacitive Piezoelectric Sensor with Vertically
Aligned Ultralong GaN Wires
Amine El Kacimi, Emmanuelle Pauliac-Vaujour, Joël Eymery
We report a simple and scalable fabrication process of flexible capacitive piezoelectric sensors using vertically aligned gallium nitride (GaN) wires as well as their physical principles of operation. The as-grown N-polar GaN wires obtained by self-catalyst metal–organic vapor phase epitaxy are embedded into a polydimethylsiloxane (PDMS) matrix and directly peeled off from the sapphire substrate before metallic electrode contacting. This geometry provides an efficient control of the wire orientation and an additive contribution of the individual piezoelectric signals. The device output voltage and efficiency are studied by finite element calculations for compression mechanical loading as a function of the wire geometrical growth parameters (length and density). We demonstrate that the voltage output level and sensitivity increases as a function of the wire length and that a conical shape is not mandatory for potential generation as it was the case for horizontally assembled devices. The optimal design to improve the overall device response is also optimized in terms of wire positioning inside PDMS, wire density, and total device thickness. Following the results of these calculations, we have fabricated experimental devices exhibiting outputs of several volts with a very good reliability under cyclic mechanical excitation.

Publisher URL: http://dx.doi.org/10.1021/acsami.7b15649

DOI: 10.1021/acsami.7b15649

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