PDF) Atomically Thin MoS 2 : A New Direct-Gap Semiconductor
PDF) Atomically Thin MoS 2 : A New Direct-Gap Semiconductor
Nanomaterials | Free Full-Text | Benchmark Investigation of Band-Gap Tunability of Monolayer Semiconductors under Hydrostatic Pressure with Focus-On Antimony | HTML
![PDF] Direct Observation of the Band Gap Transition in Atomically Thin ReS2. | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/ceb45e943ab5d4fe9de03155e1be906ba1516cee/4-Figure3-1.png "PDF] Direct Observation of the Band Gap Transition in Atomically Thin ReS2. | Semantic Scholar")
PDF] Direct Observation of the Band Gap Transition in Atomically Thin ReS2. | Semantic Scholar
Ultrahigh-Gain Photodetectors Based on Atomically Thin Graphene-MoS2 Heterostructures | Scientific Reports
![PDF] Atomically thin MoS₂: a new direct-gap semiconductor. | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/2761ca088880738b755f7ec37cd38ef60dd32027/3-Figure3-1.png "PDF] Atomically thin MoS₂: a new direct-gap semiconductor. | Semantic Scholar")
PDF] Atomically thin MoS₂: a new direct-gap semiconductor. | Semantic Scholar
Frontiers | Two-Dimensional Semiconductor Heterojunctions for Optoelectronics and Electronics | Energy Research
Atomically Thin Arsenene and Antimonene: Semimetal–Semiconductor and Indirect–Direct Band‐Gap Transitions - Zhang - 2015 - Angewandte Chemie International Edition - Wiley Online Library
Frontiers | Bandgap Engineering and Near-Infrared-II Optical Properties of Monolayer MoS2: A First-Principle Study | Chemistry
![PDF] Atomically thin MoS₂: a new direct-gap semiconductor. | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/2761ca088880738b755f7ec37cd38ef60dd32027/1-Figure1-1.png "PDF] Atomically thin MoS₂: a new direct-gap semiconductor. | Semantic Scholar")
PDF] Atomically thin MoS₂: a new direct-gap semiconductor. | Semantic Scholar
Bandgap broadening at grain boundaries in single-layer MoS2 | SpringerLink
Color online) Electronic band structure and corresponding total and... | Download Scientific Diagram
PDF) Atomically Thin MoS 2 : A New Direct-Gap Semiconductor
Molybdenum Disulfide, MoS2: Theory, Structure & Applications | Ossila
Electronic properties of MoS2/MoOx interfaces: Implications in Tunnel Field Effect Transistors and Hole Contacts | Scientific Reports
Strain engineering of 2D semiconductors and graphene: from strain fields to band-structure tuning and photonic applications | Light: Science & Applications
Directly visualizing the momentum-forbidden dark excitons and their dynamics in atomically thin semiconductors
Molybdenum Disulfide, MoS2: Theory, Structure & Applications | Ossila
Enhanced light-matter interaction in atomically thin MoS2 coupled with 1D photonic crystal nanocavity
Partial Oxidized Arsenene: Emerging Tunable Direct Bandgap Semiconductor | Scientific Reports
Strain-induced semiconductor to metal transition in the two-dimensional honeycomb structure of MoS2 | SpringerLink
Strain engineering band gap, effective mass and anisotropic Dirac-like cone in monolayer arsenene: AIP Advances: Vol 6, No 3
A new 2D Si3X(X=S, 0) direct band gap semiconductor with anisotropic carrier mobility - ScienceDirect
Monolayer MoS2 for nanoscale photonics
Photoconversion efficiency in atomically thin TMDC-based heterostructures
