2011
DOI: 10.1063/1.3672219
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The indirect to direct band gap transition in multilayered MoS2 as predicted by screened hybrid density functional theory

Abstract: Molybdenite (MoS2) undergoes a transition from an indirect to direct gap semiconductor exhibiting strong photoluminescence when confined in a 2D monolayer. We investigate the effect of interlayer interactions on the band structure and density of states using the screened hybrid functional of Heyd, Scuseria, and Ernzerhof. We show that for the bulk and monolayer systems, our short-range screened hybrid functional produces band gaps in good agreement with experiment. Our functional includes only interlayer inter… Show more

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Cited by 559 publications
(366 citation statements)
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“…There is a possibility that higher energy quantum confined states in our few-layer samples could be occupied by hot or thermally excited carriers. However, even in the 10-layer sample the second confined state is estimated to be 50-100 meV higher in energy 47 and is, therefore, not expected to have significant carrier population. Also, we see no temperature dependence in the measured lifetimes and this indicates that there is no significant error made in ignoring carrier spilling into the higher quantum confined states.…”
Section: Scaling Of the Carrier Lifetime With The Number Of Layersmentioning
confidence: 99%
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“…There is a possibility that higher energy quantum confined states in our few-layer samples could be occupied by hot or thermally excited carriers. However, even in the 10-layer sample the second confined state is estimated to be 50-100 meV higher in energy 47 and is, therefore, not expected to have significant carrier population. Also, we see no temperature dependence in the measured lifetimes and this indicates that there is no significant error made in ignoring carrier spilling into the higher quantum confined states.…”
Section: Scaling Of the Carrier Lifetime With The Number Of Layersmentioning
confidence: 99%
“…This procedure is equivalent to assuming a spatially varying defect structure in a more formal calculation technique such as the one presented by Wang et al 25 . This procedure also assumes that the carriers are mobile in the direction normal to the plane of the layers, an assumption that seems to be justified by the large splittings of the energy subbands observed in the conduction band minima and the valence band maxima in few layer MoS 2 in calculations 47 . The envelope of the electron (or hole) wavefunction of the lowest quantum confined state (confined in the direction perpendicular to the layers) can be obtained using the effective mass approximation (and assuming a discrete space),…”
Section: Scaling Of the Carrier Lifetime With The Number Of Layersmentioning
confidence: 99%
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“…The HSE06 band gap is expected to underestimate the quasiparticle band gap by no more than 10%, 35 and is known to be accurate in 2D materials. 36 The effective masses at the high-symmetry points in the conduction band are summarized in Table II. The effective mass is isotropic at the Γ and K points, but not at M. We note that the effective mass is quite sensitive to the fitting range.…”
Section: A Band Structuresmentioning
confidence: 99%
“…This issue has been theoretically addressed either through LDA/GGA calculations [163,27,28,31], or the GW method [144]. The effect of hydrostatic pressure on the vibrational, electronic, and optical properties of bulk, multi-, and single layer MoS 2 was investigated by Nayak et al [33,34] by combining various experiments (high resolution transmission electron microscopy, electrical resistance measurements, laser Raman spectroscopy, synchrotron X-ray diffraction experiments under high-pressure) with DFT calculations.…”
Section: Strain Effects In Single-layer Mosmentioning
confidence: 99%