FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2959897515> ?p ?o ?g. }

• W2959897515 abstract "In recent years, the use of first-principles based atomistic modeling technique has become extremely popular to gain better insights on the various locally modulated electronic properties of nano materials and structures. Atomistic modeling offers the benefit of predicting crystal structures, visualizing orbital distribution and electron density, as well as understanding material properties which are hard to access experimentally. The single layer MoS2 has emerged as a suitable choice for the next generation nano devices, owing to its distinctive electrical, optical and mechanical properties like, better electrostatics, increased photo luminescence, higher mechanical flexibility, etc. The realization of decananometer scale digital switches with the single layer MoS2 as the channel may provide many significant advantages such as, high On/Off current ratio, excellent electrostatic control of the gate, low leakage, etc. However, there are quite a few critical issues such as, forming low resistance source/drain contacts, achieving higher effective mobility, ensuring large scale controlled growth, etc. which need to be addressed for successful implementation of the atomically thin transistors in integrated circuits. Recent experimental demonstration showing the coexistence of metallic and semiconducting phases in the same monolayer MoS2, has attracted much attention for its use in ultra-low contact resistance-MoS2 transistors. Howbeit, the electronic structures of the metallic-to-semiconducting phase boundaries, which appear to dictate the carrier injection in such transistors, are not yet well understood. In this work, we first develop the geometrically optimized atomistic models of the 2H-1T′ hetero-phase structures with two distinct phase boundaries, β and γ. We then apply density functional theory to calculate the electronic structures for those optimized geometries. Furthermore, we employ non equilibrium Green’s function formalism to evaluate the transmission spectra and the local density of states in order to assess the Schottky barrier nature of the phase boundaries. Nonetheless, the symmetry of the source-channel and drain-channel junction, is a unique property of a metal-oxide semiconductor field effect transistor (MOSFET), which needs to be preserved while realizing sub-10 nm channel length devices using advanced technology. Employing experimental-findings-driven atomistic modeling technique, we demonstrate that such symmetry might not be preserved in an atomically thin phase-engineered MoS2- based MOSFET. It originates from the two distinct atomic patterns at phase boundaries (β and β*) when the semiconducting phase (channel) is sandwiched between the two metallic phases (source and drain). Next, using first principles based quantum transport calculations we demonstrate that due to the clusterization of “Mo” atoms in 1T′ MoS2, the transmission along the zigzag direction is significantly higher than that in the armchair direction. Moreover, to achieve excellent impedance matching with various metal contacts…" @default.
• W2959897515 created "2019-07-23" @default.
• W2959897515 creator A5031505406 @default.
• W2959897515 date "2018-05-25" @default.
• W2959897515 modified "2023-10-16" @default.
• W2959897515 title "Atomistic Study of Carrier Transmission in Hetero-phase MoS2 Structures" @default.
• W2959897515 hasPublicationYear "2018" @default.
• W2959897515 type Work @default.
• W2959897515 sameAs 2959897515 @default.
• W2959897515 citedByCount "0" @default.
• W2959897515 crossrefType "dissertation" @default.
• W2959897515 hasAuthorship W2959897515A5031505406 @default.
• W2959897515 hasConcept C106782819 @default.
• W2959897515 hasConcept C119599485 @default.
• W2959897515 hasConcept C127413603 @default.
• W2959897515 hasConcept C134146338 @default.
• W2959897515 hasConcept C138331895 @default.
• W2959897515 hasConcept C165801399 @default.
• W2959897515 hasConcept C171250308 @default.
• W2959897515 hasConcept C172385210 @default.
• W2959897515 hasConcept C178790620 @default.
• W2959897515 hasConcept C185592680 @default.
• W2959897515 hasConcept C192562407 @default.
• W2959897515 hasConcept C24326235 @default.
• W2959897515 hasConcept C44280652 @default.
• W2959897515 hasConcept C49040817 @default.
• W2959897515 hasConcept C61696701 @default.
• W2959897515 hasConcept C7070889 @default.
• W2959897515 hasConceptScore W2959897515C106782819 @default.
• W2959897515 hasConceptScore W2959897515C119599485 @default.
• W2959897515 hasConceptScore W2959897515C127413603 @default.
• W2959897515 hasConceptScore W2959897515C134146338 @default.
• W2959897515 hasConceptScore W2959897515C138331895 @default.
• W2959897515 hasConceptScore W2959897515C165801399 @default.
• W2959897515 hasConceptScore W2959897515C171250308 @default.
• W2959897515 hasConceptScore W2959897515C172385210 @default.
• W2959897515 hasConceptScore W2959897515C178790620 @default.
• W2959897515 hasConceptScore W2959897515C185592680 @default.
• W2959897515 hasConceptScore W2959897515C192562407 @default.
• W2959897515 hasConceptScore W2959897515C24326235 @default.
• W2959897515 hasConceptScore W2959897515C44280652 @default.
• W2959897515 hasConceptScore W2959897515C49040817 @default.
• W2959897515 hasConceptScore W2959897515C61696701 @default.
• W2959897515 hasConceptScore W2959897515C7070889 @default.
• W2959897515 hasLocation W29598975151 @default.
• W2959897515 hasOpenAccess W2959897515 @default.
• W2959897515 hasPrimaryLocation W29598975151 @default.
• W2959897515 hasRelatedWork W1797198319 @default.
• W2959897515 hasRelatedWork W1977042446 @default.
• W2959897515 hasRelatedWork W2019063764 @default.
• W2959897515 hasRelatedWork W2057749794 @default.
• W2959897515 hasRelatedWork W2058137697 @default.
• W2959897515 hasRelatedWork W2112990349 @default.
• W2959897515 hasRelatedWork W2190459588 @default.
• W2959897515 hasRelatedWork W2413446405 @default.
• W2959897515 hasRelatedWork W2463828816 @default.
• W2959897515 hasRelatedWork W2598373504 @default.
• W2959897515 hasRelatedWork W2617425872 @default.
• W2959897515 hasRelatedWork W2624973397 @default.
• W2959897515 hasRelatedWork W2765528138 @default.
• W2959897515 hasRelatedWork W2789955661 @default.
• W2959897515 hasRelatedWork W2795086057 @default.
• W2959897515 hasRelatedWork W2971980836 @default.
• W2959897515 hasRelatedWork W3098391005 @default.
• W2959897515 hasRelatedWork W3109340918 @default.
• W2959897515 hasRelatedWork W3156717279 @default.
• W2959897515 hasRelatedWork W1884973640 @default.
• W2959897515 isParatext "false" @default.
• W2959897515 isRetracted "false" @default.
• W2959897515 magId "2959897515" @default.
• W2959897515 workType "dissertation" @default.