Thickness dependent electronic properties of Pt dichalcogenides

Villaos, Rovi Angelo B.; Crisostomo, Christian P.; Huang, Zhi-Quan; Huang, Shin-Ming; Padama, Allan Abraham B.; Albao, Marvin A.; Lin, Hsin; Chuang, Feng‐Chuan

doi:10.1038/s41699-018-0085-z

Cited by 145 publications

(179 citation statements)

References 64 publications

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“…Such interaction produces large distortions of the valence band, which now presents two clear quasi-degenerate VBM near Γ along the Γ-M and Γ-K directions. In fact a closer inspection reveals that the VBM is formed by a set of kpoints arranged arranged along a hexagon at the edge of the 2D Brillouin zone, a fact already observed before [30].…”

Section: A Bandstructuresupporting

confidence: 57%

Interlayer dielectric function of a type-II van der Waals semiconductor: The HfS2/PtS2 heterobilayer

Colibaba

Körbel

Motta

et al. 2019

Phys. Rev. Materials

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Heterogeneous stacks of two-dimensional transition-metal dichalcogenides can be arranged so as to have a type-II band alignment, where the valence band maximum and the conduction band minimum are located on different layers. These structures can host long-living inter-layer excitons with inhibited charge recombination and enhanced charge-carrier separation. Inter-layer excitons appear as photoluminescence peaks below the band gap, but not in absorption experiments, indicating that they may form after and not during absorption. In order to quantify the inter-layer component of the absorption spectra of such heterostructures, we perform first-principles calculations of the layerdecomposed dielectric function of the HfS2/PtS2 hetero-bilayer. This has a type-II band alignment and a relatively small inter-layer distance, which should facilitate the formation of inter-layer excitons. We find that the inter-layer component is always only a small fraction of the total dielectric function, owing to the large spatial separation between the electron and the hole. However, the inter-layer contribution is greatly enhanced upon reducing the interlayer distance. Compression of the layers produces a split-off band at the top of the valence bands. This remains localised on PtS2 so that the heterostructure preserves the type-II character. At the same time the type-II bandgap is reduced, moving the inter-layer absorption peak to a lower energy and to a position well separated from the rest of the absorption spectrum. I.

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Section: A Bandstructuresupporting

confidence: 57%

Interlayer dielectric function of a type-II van der Waals semiconductor: The HfS2/PtS2 heterobilayer

Colibaba

Körbel

Motta

et al. 2019

Phys. Rev. Materials

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“…The bands with the flat features in 1T PdTe 2 ( figure 6(d)), however, is positioned relatively below the Fermi level. Nevertheless, the location of the flat band can be manipulated through strain [21] to tune the vHs for monolayer 1T PdTe 2 . Focusing on PdS 2 and PdSe 2 , the flat peaks bands observed are within the VBM.…”

Section: Resultsmentioning

confidence: 99%

“…Studies have also demonstrated that the electronic properties of TMDs can easily be engineered and manipulated by tuning its thickness [21][22][23] or introduction of strain [21,[24][25][26][27], in which some of the observed phenomena were increasing and indirect-to-direct transition of band gap from bulk to monolayer, and tuning of van Hove singularity (vHs) [28] near the Fermi level. Because of these unique properties, TMDs are now one of the fascinating prospects in condensed matter research, especially in 2D materials.…”

Section: Introductionmentioning

confidence: 99%

Layer-dependent band engineering of Pd dichalcogenides: a first-principles study

et al. 2020

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Among the families of transition metal dichalcogenides (TMDs), Pd-based TMDs have been one of the less explored materials. In this study, we investigate the electronic properties of PdX 2 (X = S, Se, or Te) bulk and thin films. The analysis of structural stability shows that the bulk and thin film (1 to 5 layers) structures of PdS 2 exhibit pyrite, while PdTe 2 exhibits 1T. Furthermore, PdSe 2 exhibits pyrite in bulk and thin films down to the bilayer. Most surprisingly, PdSe 2 monolayer transits to 1T phase. For the electronic properties of the stable bulk configurations, pyrite PdS 2 and PdSe 2 , and 1T PdTe 2 , demonstrate semi-metallic features. For monolayer, on the other hand, the stable pyrite PdS 2 and 1T PdSe 2 monolayers are insulating with band gaps of 1.399 eV and 0.778 eV, respectively, while 1T PdTe 2 monolayer remains to be semi-metallic. The band structures of all the materials demonstrate a decreasing or closing of indirect band gap with increasing thickness. Moreover, the stable monolayer band structures of PdS 2 and PdSe 2 exhibit flat bands and diverging density of states near the Fermi level, indicating the presence of van Hove singularity. Our results show the sensitivity and tunability of the electronic properties of PdX 2 for various potential applications.

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“…20,21 One member of the NTMD group is platinum disulde (PtS 2 ), of which ultrathin lms have recently been synthesised. [22][23][24] Theoretical and experimental studies have revealed that the size of the bandgap in PtS 2 decreases with increasing lm thickness, [23][24][25][26] going from $1.7 eV for monolayer PtS 2 to $0.25 eV for the bulk state. Indirect bandgaps were observed for all layer thicknesses as opposed to MoS 2 and WS 2 where the monolayer forms possess a direct bandgap.…”

Section: Introductionmentioning

confidence: 99%

Electronic and structural characterisation of polycrystalline platinum disulfide thin films

et al. 2020

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Thickness dependent electronic properties of Pt dichalcogenides

Cited by 145 publications

References 64 publications

Interlayer dielectric function of a type-II van der Waals semiconductor: The HfS2/PtS2 heterobilayer

Interlayer dielectric function of a type-II van der Waals semiconductor: The HfS2/PtS2 heterobilayer

Layer-dependent band engineering of Pd dichalcogenides: a first-principles study

Electronic and structural characterisation of polycrystalline platinum disulfide thin films

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