# Mechanically-controllable strong 2D ferroelectricity and anisotropic   optical properties of flexible BiN monolayer

**Authors:** Peng Chen, Xue-Jing Zhang, and Bang-Gui Liu

arXiv: 1704.03424 · 2017-11-28

## TL;DR

This study reveals that the BiN monolayer is a stable 2D ferroelectric material with tunable polarization, electronic, and optical properties, suitable for flexible electronic and optical devices.

## Contribution

It demonstrates the mechanical controllability of ferroelectricity and anisotropic optical properties in BiN monolayer, a novel 2D material with potential applications.

## Key findings

- BiN monolayer is stable at room temperature.
- Polarization can be switched by mechanical stress.
- Optical reflectivity shows strong anisotropy.

## Abstract

Structural, electronic, ferroelectric, and optical properties of two-dimensional (2D) BiN monolayer material with phosphorene-like structure are studied in terms of the density functional theory and modern Berry phase ferroelectric method. Both phonon spectra and molecular dynamics simulations indicate that the BiN monolayer is a room-temperature stable 2D ferroelectric with polarization as large as 580 pC/m. Further studies show that the polarization in the BiN monolayer can be easily switched from [100] to [010] direction over the bridging saddle phase by applying a tensile [010] stress of 2.54 N/m or compressive [100] stress of -1.18 N/m. This phase transition makes its lattice constants vary in a large range compared to other non-ferroelectric 2D materials. Moreover, through applying uniaxial tensile stress parallel to the polarization, one can fix the polarization and change the semiconductor energy gap from direct to indirect one. The optical properties feature a very strong anisotropy in reflectivity below the photon energy of 4 eV. All these significant ferroelectric, electronic, and optical properties make us believe that the 2D BiN monolayer can be used to make stretchable electronic devices and optical applications.

## Full text

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## Figures

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## References

45 references — full list in the complete paper: https://tomesphere.com/paper/1704.03424/full.md

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Source: https://tomesphere.com/paper/1704.03424