Issue 15, 2023

A systematic study of work function and electronic properties of MXenes from first principles

Abstract

Functional 2D materials are interesting for a wide range of applications. The rapid growth of the MXene family is due to its compositional diversity, which, in turn, allows significant tuning of the properties, and hence their applicability. The properties are to a large extent dictated by surface terminations. In the present work, we demonstrate the influence of termination species (O, NH, N, S, F, Cl, Br, I) on the changes in electronic structure, work function, dynamical stability, and atomic charges and distances of MXenes (Ti2C, Nb2C, V2C, Mo2C, Ti3C2, and Nb4C3). Among these systems, the work function values were not previously reported for ∼60% of the systems, and most of the previously reported MXenes with semiconducting nature are here proven to be dynamically unstable. The results show that the work function generally decreases with a reduced electronegativity of the terminating species, which in turn is correlated to a reduced charge of both the metal and terminating species and an increased metal-termination distance. An exception to this trend is NH terminations, which display a significantly reduced work function due to an intrinsic dipole moment within the termination. Furthermore, the results suggest that halogen terminations improve the electrical conductivity of the materials.

Graphical abstract: A systematic study of work function and electronic properties of MXenes from first principles

Supplementary files

Article information

Article type
Paper
Submitted
22 Nov 2022
Accepted
05 Jul 2023
First published
10 Jul 2023
This article is Open Access
Creative Commons BY license

Nanoscale Adv., 2023,5, 3976-3984

A systematic study of work function and electronic properties of MXenes from first principles

K. Yusupov, J. Björk and J. Rosen, Nanoscale Adv., 2023, 5, 3976 DOI: 10.1039/D2NA00830K

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