Lattice Dynamics and Thermodynamic Properties of Bulk Phases and Monolayers of GaTe and InTe: A Comparison from First‐Principles Calculations

Bandura, Andrei V.; Kovalenko, A.V.; Kuruch, Dmitry D.; Ėvarestov, R. A.

doi:10.1002/ejic.202000634

Cited by 11 publications

(6 citation statements)

References 68 publications

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“…The phase transformation between H phase and M phase in the gallium monochalcogenides suggests that surface formation energy (total energy) may be a key factor in the determination of the structural phases in the layered GaTe 1−x Se x (0 ≤ x ≤ 1) series. Some theoretical and experimental works have been conducted to evaluate the stable phase and formation conditions of H-GaTe and M-GaTe 32,34,42 and the most important issues are closely related to the synthesis temperature and layer thickness of the gallium telluride.…”

Section: Resultsmentioning

confidence: 99%

“…For growth temperature, the synthesized GaTe will be H phase if the deposition temperature of the physical vapor deposition is lower than 600 °C, whereas the deposited film will be M phase if the growth temperature is larger than 700 °C42 . Previous densityfunctional theory (DFT) calculations revealed that the increase of temperature favors the formation of the monolayer form of GaTe by deposition and the total energy of the H-phase monolayer is lower than that of the M-phase monolayer, which presents a more stable hexagonal-phase form for the single-layer condition 34 .…”

Section: Resultsmentioning

confidence: 99%

“…Some experimental studies of binary GaTe (containing M and H phases) have announced its anisotropic crystallography and intriguing optical and optoelectronic properties 25,29,32,33 . Phase coexistence and phase transformation between the H and M structures in GaTe are also frequently discussed and studied and they are closely related to the growth temperature and layer thickness of GaTe 32,34 .…”

Section: Introductionmentioning

confidence: 99%

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Near-infrared to red-light emission and carrier dynamics in full series multilayer GaTe1−xSex (0≤x≤1) with structural evolution

Muhimmah

Peng

et al. 2023

npj 2D Mater Appl

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Two-dimensional layered gallium monochalcogenide (GaX, where X = S, Se, Te) semiconductors possess great potential for use in optoelectronic and photonic applications, owing to their direct band edge. In this work, the structural and optical properties of full-series multilayer GaTe1−xSex for x = 0 to x = 1 are examined. The experimental results show that the whole series of GaTe1−xSex layers may contain one hexagonal (H) phase from GaTe to GaSe, whereas the monoclinic (M) phase predominates at 0 ≤ x ≤ 0.4. For x ≥ 0.5, the H-phase dominates the GaTe1−xSex series. The micro-photoluminescence (μPL) results indicate that the photon emission energy of M-phase GaTe1−xSex increases as the Se content increases from 1.652 eV (M-GaTe) to 1.779 eV (M-GaTe0.6Se0.4), whereas that of H-phase GaTe1−xSex decreases from 1.998 eV (H-GaSe) to 1.588 eV (H-GaTe) in the red to near-infrared (NIR) region. Micro-time-resolved photoluminescence (TRPL) and area-fluorescence lifetime mapping (AFLM) of the few-layer GaTe1−xSex series indicates that the decay lifetime of the band-edge emission of the M phase is faster than that of the H phase in the mixed alloys of layered GaTe1−xSex (0 ≤ x ≤ 0.4). On the other hand, for H-phase GaTe1−xSex, the decay lifetime of the band-edge emission also increases as the Se content increases, owing to the surface effect. The dark resistivity of GaTe1−xSex for 0.5 ≤ x ≤ 1 (i.e., predominantly H phase) is greater than that of the other instance of majority M-phase GaTe1−xSex for 0 ≤ x ≤ 0.4, owing to the larger bandgaps. The predominantly H phase GaTe1−xSex (0.5 ≤ x ≤ 1) also shows a greater photoconductive response under visible-light illumination because of the greater contribution from surface states. The superior light-emission and photodetection capability of the GaTe1−xSex multilayers (0 ≤ x ≤ 1) means that they can be used for future optoelectronic devices.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Near-infrared to red-light emission and carrier dynamics in full series multilayer GaTe1−xSex (0≤x≤1) with structural evolution

Muhimmah

Peng

et al. 2023

npj 2D Mater Appl

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“…Our calculations have been performed in the framework of periodic DFT using the hybrid exchange‐correlation functional M06 designed to describe thermochemistry and noncovalent interactions involving main‐group elements. [ 15 ] As shown by Bandura et al, [ 16 ] the M06 functional can reproduce the correct stability of the observed tetragonal InTe phase. Bloch sums of localized atomic orbitals implemented in the CRYSTAL17 computer code were used to expand the crystal orbitals.…”

Section: Computational Detailsmentioning

confidence: 81%

The Nature of Chemical Bonds in the Tetragonal Polymorph of InTe: First‐Principles‐Based Topological Analysis

Kovalenko

Bandura

Kuruch

et al. 2021

Physica Status Solidi (b)

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The topological analysis of the electron density is first performed for a bulk InTe crystal using the density functional theory calculations. Several types of two‐center chemical interactions have been identified. Crystal orbital Hamilton population method is used to estimate the corresponding bond strength. As expected, the InTe chemical bonds in the –InTe2– ring chains turn out to be the strongest and have a noticeable covalent contribution. The InIn metallic bonds in linear –In– chains are much weaker. The results obtained reveal that the additional InTe bonds between the –In– and –InTe2– chains can be attributed to weak dative interactions. However, due to their multiplicity, these bonds can play an important role in the stability of the tetragonal InTe phase. The van der Waals interactions of neighboring –InTe2– chains also stabilize the crystal structure. Both Hirshfeld and Bader populations show that the effective charge of indium in the –InTe2– ring chain is noticeably greater than that in the –In– linear chain.

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“…The number and position of the active modes resemble the configuration calculated in refs. 40,41 for h-GaTe with thicknesses between ML and bulk. Following this comparison, the modes are named as A 1…”

Section: Results and Discussion Epitaxial Layered Hexagonal Gate On S...mentioning

confidence: 99%

Two-dimensional single crystal monoclinic gallium telluride on silicon substrate via transformation of epitaxial hexagonal phase

et al. 2023

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Van der Waals (vdW) epitaxial growth of large-area and stable two-dimensional (2D) materials of high structural quality on crystalline substrates is crucial for the development of novel device technologies. 2D gallium monochalcogenides with low in-plane symmetry stand out among the layered semiconductor materials family for next-generation optoelectronic and energy conversion applications. Here, we demonstrate the formation of large-area, single crystal and optically active 2D monoclinic gallium telluride (m-GaTe) on silicon substrate via rapid thermal annealing induced phase transformation of vdW epitaxial metastable hexagonal gallium telluride (h-GaTe). Stabilization of multilayer h-GaTe on Si occurs due to the role of the first layer symmetry together with efficient GaTe surface passivation. Moreover, we show that the phase transformation of h-GaTe to m-GaTe is accompanied by the strain relaxation between Si substrate and GaTe. This work opens the way to the fabrication of single-crystal 2D anisotropic semiconductors on standard crystalline wafers that are difficult to be obtained by epitaxial methods.

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Lattice Dynamics and Thermodynamic Properties of Bulk Phases and Monolayers of GaTe and InTe: A Comparison from First‐Principles Calculations

Cited by 11 publications

References 68 publications

Near-infrared to red-light emission and carrier dynamics in full series multilayer GaTe1−xSex (0≤x≤1) with structural evolution

Near-infrared to red-light emission and carrier dynamics in full series multilayer GaTe1−xSex (0≤x≤1) with structural evolution

The Nature of Chemical Bonds in the Tetragonal Polymorph of InTe: First‐Principles‐Based Topological Analysis

Two-dimensional single crystal monoclinic gallium telluride on silicon substrate via transformation of epitaxial hexagonal phase

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