Issue 22, 2017

Strain engineering of electronic structures and photocatalytic responses of MXenes functionalized by oxygen

Abstract

The structural, electronic, and photocatalytic properties of two-dimensional Ti2CO2, Zr2CO2, and Hf2CO2 MXenes were investigated by first-principles (PBE and hybrid) calculations. Transition from an indirect to a direct band gap was achieved for the biaxial tensile strain of 3% for Ti2CO2, 8% for Zr2CO2, and 13% for Hf2CO2 while the nature of the band gap remained indirect in the case of the compressive strain. The size of the band gap passed through a maximum under tensile strain and decreased monotonically under compressive strain. Analysis of Bader charge distribution showed that the tensile strain decreased the transfer of charge from the Ti, Zr, and Hf atoms to the C atom. Phonon spectra suggested that these systems are stable under a wide range of strains from compression to tension. The photocatalytic properties showed that unstrained and biaxial tensile strained Ti2CO2, Zr2CO2, and Hf2CO2 systems can be used to oxidize H2O into O2.

Graphical abstract: Strain engineering of electronic structures and photocatalytic responses of MXenes functionalized by oxygen

Article information

Article type
Paper
Submitted
18 Apr 2017
Accepted
09 May 2017
First published
10 May 2017

Phys. Chem. Chem. Phys., 2017,19, 14738-14744

Strain engineering of electronic structures and photocatalytic responses of MXenes functionalized by oxygen

S. A. Khan, B. Amin, L. Gan and I. Ahmad, Phys. Chem. Chem. Phys., 2017, 19, 14738 DOI: 10.1039/C7CP02513K

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