Harvey N. Cruzado scite author profile

Probing the effects of thin-film thickness on transition metal dichalcogenides offer novel insights into their electronic properties and tunability, which leads to a new avenue of research and applications. A comprehensive first-principles study on thickness-dependent structural stabilities and electronic properties of ZrX2 (X = S, Se, or Te) thin films from 1 layer (L) to 6L and bulk was performed. The calculated formation energies show that ZrX2 adopts the 1T phase as the most stable structure. Furthermore, 1T-ZrS2 and ZrSe2 thin films and bulk are indirect semiconductors and their band gaps decrease as the number of layers is increased up to 6L, while 1T-ZrTe2 thin films and bulk are semimetallic. Interestingly, we demonstrate that the surface band structure of bulk and monolayer ZrTe2 under generalized gradient approximation + U and HSE06 methods is in excellent agreement with the angle-resolved photoelectron spectroscopy measurement. Finally, we discover the existence of van Hove singularities in strained 2L and unstrained 3L 1T-ZrS2 thin films, implying the existence of superconductivity in these thin films. These results showcase the tunable electronic properties of ZrX2 thin films because of thickness dependence and strain.

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Anisotropic Rashba splitting in Pt-based Janus monolayers PtXY (X,Y = S, Se, or Te)

Sino

Feng

Villaos

et al. 2021

Nanoscale Adv.

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Magnetic and topological properties in hydrogenated transition metal dichalcogenide monolayers

Feng

Villaos

Cruzado

et al. 2020

Chinese Journal of Physics

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Band Engineering and Van Hove Singularity on HfX₂ Thin Films (X = S, Se, or Te)

Cruzado

Dizon

Macam

et al. 2021

ACS Appl. Electron. Mater.

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Two-dimensional transition metal dichalcogenides (TMDs) have become well-known due to their versatile and tunable physical properties for potential applications, specifically on low-power and optical devices. Here, we explored the structural stability and electronic properties of bulk and thin-film (from 1 up to 6 layers) structures of hafnium dichalcogenides (HfX 2 , X = S, Se, or Te) using first-principles calculations. Our calculations reveal that the most stable phase is 1T for both thin films and bulk. The bulk and thin-film structures of HfTe 2 are semimetallic, while those of HfS 2 and HfSe 2 are insulating. Both HfS 2 and HfSe 2 thin films exhibit a decreasing band gap with increasing thickness, while HfTe 2 thin films remain semimetallic with increasing number of layers. Moreover, van Hove singularity (vHs), due to the contribution of the p z orbital from S atoms, is observed in 3L-HfS 2 at the valence band maximum, which can be further enhanced by applying an in-plane biaxial strain, suggesting possible superconductivity. Finally, the bulk and monolayer band structures of HfTe 2 , under HSE06 and GGA + U with the effective Hubbard U parameter of 4.6 eV, are in good agreement with the experimental ARPES data. Our results indeed show that HfX 2 have sensitive and tunable electronic properties through film thickness control and strain for future potential applications.

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Harvey N. Cruzado

Evolution of the Electronic Properties of ZrX₂ (X = S, Se, or Te) Thin Films under Varying Thickness

Anisotropic Rashba splitting in Pt-based Janus monolayers PtXY (X,Y = S, Se, or Te)

Magnetic and topological properties in hydrogenated transition metal dichalcogenide monolayers

Band Engineering and Van Hove Singularity on HfX₂ Thin Films (X = S, Se, or Te)

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About

Harvey N. Cruzado

Evolution of the Electronic Properties of ZrX2 (X = S, Se, or Te) Thin Films under Varying Thickness

Anisotropic Rashba splitting in Pt-based Janus monolayers PtXY (X,Y = S, Se, or Te)

Magnetic and topological properties in hydrogenated transition metal dichalcogenide monolayers

Band Engineering and Van Hove Singularity on HfX2 Thin Films (X = S, Se, or Te)

Contact Info

Product

Resources

About

Evolution of the Electronic Properties of ZrX₂ (X = S, Se, or Te) Thin Films under Varying Thickness

Band Engineering and Van Hove Singularity on HfX₂ Thin Films (X = S, Se, or Te)