# Highly sensitive piezotronic pressure sensors based on undoped GaAs   nanowire ensembles

**Authors:** Yonatan Calahorra, Anke Husmann, Alice Bourdelain, Wonjong Kim, Jelena, Vukajlovic-Plestina, Chess Boughey, Qingshen Jing, Anna Fontcuberta i Morral,, Sohini Kar-Narayan

arXiv: 1901.11288 · 2019-10-03

## TL;DR

This paper presents highly sensitive piezotronic pressure sensors using undoped GaAs nanowire ensembles, exploiting their strong piezoelectric response and unique geometry to achieve exceptional pressure sensitivity.

## Contribution

The study introduces a novel GaAs nanowire-based piezotronic sensor with record sensitivity, leveraging undoped nanowires and device design to enhance piezotronic effects.

## Key findings

- Sensitivity of ~7800 meV/MPa demonstrated
- Undoped nanowires exhibit full depletion enhancing sensitivity
- Device design enables effective pressure focusing and current funneling

## Abstract

Semiconducting piezoelectric materials have attracted considerable interest due to their central role in the emerging field of piezotronics, where the development of a piezo-potential in response to stress or strain can be used to tune the band structure of the semiconductor, and hence its electronic properties. This coupling between piezoelectricity and semiconducting properties can be readily exploited for force or pressure sensing using nanowires, where the geometry and unclamped nature of nanowires render them particularly sensitive to small forces. At the same time, piezoelectricity is known to manifest more strongly in nanowires of certain semiconductors. Here, we report the design and fabrication of highly sensitive piezotronic pressure sensors based on GaAs nanowire ensemble sandwiched between two electrodes in a back-to-back diode configuration. We analyse the current-voltage characteristics of these nanowire-based devices in response to mechanical loading in light of the corresponding changes to the device band structure. We observe a high piezotronic sensitivity to pressure, of ~7800 meV/MPa. We attribute this high sensitivity to the nanowires being fully depleted due to the lack of doping, as well as due to geometrical pressure focusing and current funneling through polar interfaces.

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Source: https://tomesphere.com/paper/1901.11288