Electronic structures of iMAX phases and their two-dimensional derivatives: A family of piezoelectric materials

TL;DR

This study explores the electronic properties of newly synthesized iMAX phases and their 2D derivatives, revealing their potential as high-performance piezoelectric materials due to their semiconducting nature and giant piezoelectric coefficients.

Contribution

It provides the first detailed analysis of the structural stability and electronic properties of iMAX phases and their O-terminated iMXenes, highlighting their potential in piezoelectric applications.

Findings

iMAX phases and their pristine, F, or OH-terminated iMXenes are metallic.

O-terminated iMXenes become semiconductors.

Semiconducting iMXenes exhibit giant piezoelectric coefficients.

Abstract

Recently, a group of MAX phases, (Mo$_{2/3}$Y$_{1/3}$)$_2$AlC, (Mo$_{2/3}$Sc$_{1/3}$)$_2$AlC, (W$_{2/3}$Sc$_{1/3}$)$_2$AlC, (W$_{2/3}$Y$_{1/3}$)$_2$AlC, and (V$_{2/3}$Zr$_{1/3}$)$_2$AlC, with in-plane ordered double transition metals, named iMAX phases, have been synthesized. Experimentally, some of these MAX phases can be chemically exfoliated into two-dimensional (2D) single- or multilayered transition metal carbides, so-called MXenes. Accordingly, the 2D nanostructures derived from iMAX phases are named iMXenes. Here, we investigate the structural stabilities and electronic structures of the experimentally discovered iMAX phases and their possible iMXene derivatives. We show that the iMAX phases and their pristine, F, or OH-terminated iMXenes are metallic. However, upon O termination, (Mo$_{2/3}$Y$_{1/3}$)$_2$C, (Mo$_{2/3}$Sc$_{1/3}$)$_2$C, (W$_{2/3}$Y$_{1/3}$)$_2$C, and (W$_{2/3}$Sc$_{1/3}$)$_2$C iMXenes turn into semiconductors. Owing to the absence of centrosymmetry, the semiconducting iMXenes may find applications in piezoelectricity. Our calculations reveal that the semiconducting iMXenes possess giant piezoelectric coefficients as large as 45$\times10^{-10}$~C/m.