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Single-layer group-III monochalcogenide photocatalysts for water splitting
The recent synthesis of single-layer GaS and GaSe opens the question of stability for other
single-layer group-III monochalcogenides (MX, M= Ga and In, X= S, Se, and Te) and how …
single-layer group-III monochalcogenides (MX, M= Ga and In, X= S, Se, and Te) and how …
Indirect band gap semiconductors for thin-film photovoltaics: high-throughput calculation of phonon-assisted absorption
Discovery of high-performance materials remains one of the most active areas in
photovoltaics (PV) research. Indirect band gap materials form the largest part of the …
photovoltaics (PV) research. Indirect band gap materials form the largest part of the …
Two-dimensional indium selenides compounds: an ab initio study
We use first-principle calculations to investigate the electronic structure of InSe and In2Se3.
The interlayer binding energy is found to be in the same range as for other 2D systems, and …
The interlayer binding energy is found to be in the same range as for other 2D systems, and …
Nanotexturing to enhance photoluminescent response of atomically thin indium selenide with highly tunable band gap
Manipulating properties of matter at the nanoscale is the essence of nanotechnology, which
has enabled the realization of quantum dots, nanotubes, metamaterials, and two …
has enabled the realization of quantum dots, nanotubes, metamaterials, and two …
Electronic structure, optical properties, and lattice dynamics in atomically thin indium selenide flakes
The progressive stacking of chalcogenide single layers gives rise to two-dimensional
semiconducting materials with tunable properties that can be exploited for new field-effect …
semiconducting materials with tunable properties that can be exploited for new field-effect …
Layered indium selenide under high pressure: a review
This paper intends a short review of the research work done on the structural and electronic
properties of layered Indium Selenide (InSe) and related III–VI semiconductors under high …
properties of layered Indium Selenide (InSe) and related III–VI semiconductors under high …
Computational mining of photocatalysts for water splitting hydrogen production: two-dimensional InSe-family monolayers
Strongly suppressed recombination of electron–hole pairs, unexpectedly high carrier
mobility, and anomalous optical response were found in an atomically thin indium selenide …
mobility, and anomalous optical response were found in an atomically thin indium selenide …
Imaging the motion of electrons across semiconductor heterojunctions
Technological progress since the late twentieth century has centred on semiconductor
devices, such as transistors, diodes and solar cells,,,,,,,. At the heart of these devices is the …
devices, such as transistors, diodes and solar cells,,,,,,,. At the heart of these devices is the …
A New, Thorough Look on Unusual and Neglected Group III‐VI Compounds Toward Novel Perusals
The attention on group III‐VI compounds in the last decades has been centered on the
optoelectronic properties of indium and gallium chalcogenides. These outstanding …
optoelectronic properties of indium and gallium chalcogenides. These outstanding …
Theoretical design of an InSe/GaTe vdW heterobilayer: A potential visible-light photocatalyst for water splitting
Using first-principles calculations, we show that a two-dimensional van der Waals (vdW)
InSe/GaTe heterobilayer (HBL) can serve as a potential visible-light-driven photocatalyst for …
InSe/GaTe heterobilayer (HBL) can serve as a potential visible-light-driven photocatalyst for …