Active Asymmetric Electron-Transfer Effect on the Enhanced Piezoelectricity in MoTO (T = S, Se, or Te) Monolayers and Bilayers

Abstract: Development of piezoelectric materials is limited partly due to the incompleteness of internal mechanism and the lack of vertical piezoelectricity. Herein, we theoretically identify the stable MoTO (T = S, Se, or Te) monolayers and bilayers. When two elements are given but another element can be changed, the larger the electronegativity difference ratio R ratio is, the stronger the piezoelectricity will be. Vertical piezoelectric coefficient d 33 of the MoTeO bilayer reaches 38.907 pm/V, which is 12 times larg… Show more

“…Due to the repulsive interaction between the Li adatoms, however, the relaxed lattice constant and Ti–Te up /Ti–Te dn bond lengths are elongated to 3.90 and 2.89/2.81 Å, respectively. Similar to monolayers of Janus 2H-TMDCs, 28–32 Li@2H-TiTe 2 adopts the C 3v point group thanks to the breaking of reflection symmetry. To assess the stability of the semilithiated system, we first calculate the phonon dispersion with a 3 × 3 × 1 supcell.…”

“…By contrast, asymmetric surface functionalization strategy like resultant 2D Janus materials is found both theoretically and experimentally to be more efficient to produce intrinsic vertical piezoelectricity due to the breaking of out-of-plane reflection symmetry. 28–34…”

Piezoelectricity and valley polarization in a semilithiated 2H-TiTe₂ monolayer with near room-temperature ferromagnetism

“…Due to the repulsive interaction between the Li adatoms, however, the relaxed lattice constant and Ti–Te up /Ti–Te dn bond lengths are elongated to 3.90 and 2.89/2.81 Å, respectively. Similar to monolayers of Janus 2H-TMDCs, 28–32 Li@2H-TiTe 2 adopts the C 3v point group thanks to the breaking of reflection symmetry. To assess the stability of the semilithiated system, we first calculate the phonon dispersion with a 3 × 3 × 1 supcell.…”

“…By contrast, asymmetric surface functionalization strategy like resultant 2D Janus materials is found both theoretically and experimentally to be more efficient to produce intrinsic vertical piezoelectricity due to the breaking of out-of-plane reflection symmetry. 28–34…”

Piezoelectricity and valley polarization in a semilithiated 2H-TiTe₂ monolayer with near room-temperature ferromagnetism

“…Two-dimensional (2D) systems have attracted a lot of public attention because of their excellent, fascinating, and convincing traits, and they possess enormous potential for the development of new electronic devices. 1–7 The valley is a new degree of freedom in 2D systems besides charge and spin, broadening the horizons in spintronic, valleytronic, and functional devices. 8–17 The valley can be denoted by the local extrema in the valence band (VB) and conduction band (CB): that is, valence band maximum (VBM) and conduction band minimum (CBM).…”

Novel valley character and tunable quasi-half-valley metal state in Janus monolayer VSiGeP₄

“…2D materials with Janus geometry have garnered much attention for their new properties arising from the broken out-of-plane symmetry. 10,15–24 Interestingly, Yang's group has proposed a new photocatalytic model with an intrinsic dipole that can relieve restriction on the bandgap requirement of photocatalysts. 25 The potential applications of Janus materials in photocatalysis have been revealed in the past.…”

Switch effect on controlled water splitting by biaxial strain regulating the promising two-dimensional Janus X₂PAs (X = Si, Ge and Sn) photocatalyst