Add to ORKGElemental two-dimensional (2D) materials exhibit intriguing heat transport and phononic properties. Here we have investigated the lattice thermal conductivity of newly proposed arsenene, the 2D honeycomb structure of arsenic, using ab initio calculations. Solving the Boltzmann transport equation for phonons, we predict a highly anisotropic thermal conductivity of 30.4 and 7.8 W/mK along the zigzag and armchair directions, respectively, at room temperature. Our calculations reveal that phonons with mean free paths between 20 nm and 1μm provide the main contribution to the large thermal conductivity in the zigzag direction; mean free paths of phonons contributing to heat transport in the armchair directions range between 20 and 100 nm. The ob...
Ternary pnictide semiconductors with II–IV–V2 stoichiometry hold potential as cost-effective thermoe...
Advanced materials with extreme thermal conductivity are critically important for various technologi...
Identifying materials with intrinsically high thermoelectric performance remains a challenge even wi...
This study aims to calculate the thermal conductivity of buckled and puckered arsene using Molecular...
Monolayer arsenic is a newly emerging two-dimensional material in the VA group similar to its isolog...
The thesis focuses on the phonon an harmonicity and thermal transport in two dimensional(2D) materia...
© 2015 Elsevier B.V. All rights reserved. Novel two-dimensional antimonene, is recently reported to ...
The main objective of this thesis is to study phonon thermal transport in two-dimensional (2D) mater...
Advanced materials with extreme thermal conductivity are critically important for various technologi...
Strain engineering is an effective way to tune the thermal and electrical properties of novel two-di...
Using the phonon Boltzmann transport formalism and density functional theory based calculations, we ...
Recently, as a novel member of the IV-VI group compounds, two-dimensional (2D) buckled monolayer CSe...
Two-dimensional semiconductor materials with puckered structure offer a novel playground to implemen...
Two-dimensional semiconductor materials with puckered structure offer a novel playground to implemen...
The properties of thermal transport in solids are very important in research and industry. Different...
Ternary pnictide semiconductors with II–IV–V2 stoichiometry hold potential as cost-effective thermoe...
Advanced materials with extreme thermal conductivity are critically important for various technologi...
Identifying materials with intrinsically high thermoelectric performance remains a challenge even wi...
This study aims to calculate the thermal conductivity of buckled and puckered arsene using Molecular...
Monolayer arsenic is a newly emerging two-dimensional material in the VA group similar to its isolog...
The thesis focuses on the phonon an harmonicity and thermal transport in two dimensional(2D) materia...
© 2015 Elsevier B.V. All rights reserved. Novel two-dimensional antimonene, is recently reported to ...
The main objective of this thesis is to study phonon thermal transport in two-dimensional (2D) mater...
Advanced materials with extreme thermal conductivity are critically important for various technologi...
Strain engineering is an effective way to tune the thermal and electrical properties of novel two-di...
Using the phonon Boltzmann transport formalism and density functional theory based calculations, we ...
Recently, as a novel member of the IV-VI group compounds, two-dimensional (2D) buckled monolayer CSe...
Two-dimensional semiconductor materials with puckered structure offer a novel playground to implemen...
Two-dimensional semiconductor materials with puckered structure offer a novel playground to implemen...
The properties of thermal transport in solids are very important in research and industry. Different...
Ternary pnictide semiconductors with II–IV–V2 stoichiometry hold potential as cost-effective thermoe...
Advanced materials with extreme thermal conductivity are critically important for various technologi...
Identifying materials with intrinsically high thermoelectric performance remains a challenge even wi...