Growth mechanisms of monolayer hexagonal boron nitride (h-BN) on metal surfaces: theoretical perspectives
MS Islam, AAM Mazumder, MU Sohag… - Nanoscale …, 2023 - pubs.rsc.org
Two-dimensional hexagonal boron nitride (h-BN) has appeared as a promising material in
diverse areas of applications, including as an excellent substrate for graphene devices …
diverse areas of applications, including as an excellent substrate for graphene devices …
Vacancy-induced thermal transport in two-dimensional silicon carbide: A reverse non-equilibrium molecular dynamics study
Because of its impressive electrical, thermal, and mechanical properties, two-dimensional
silicon carbide (2D-SiC) has recently gained tremendous attention in the field of …
silicon carbide (2D-SiC) has recently gained tremendous attention in the field of …
Vacancy-induced thermal transport and tensile mechanical behavior of monolayer honeycomb BeO
Because of the rapid shrinking trend of integrated circuits, the performances of nanodevices
and nanomechanical systems are greatly affected by the joule heating and mechanical …
and nanomechanical systems are greatly affected by the joule heating and mechanical …
Temperature-and defect-induced uniaxial tensile mechanical behaviors and the fracture mechanism of two-dimensional silicon germanide
Recently, monolayer silicon germanide (SiGe), a newly explored buckled honeycomb
configuration of silicon and germanium, is predicted to be a promising nanomaterial for next …
configuration of silicon and germanium, is predicted to be a promising nanomaterial for next …
[HTML][HTML] Molecular dynamics study of thermal transport in single-layer silicon carbide nanoribbons
Aiming to solve the heat dissipation problem of next generation energy-efficient
nanoelectronics, we have explored the thermal transport behavior of monolayer silicon …
nanoelectronics, we have explored the thermal transport behavior of monolayer silicon …
Thermal transport in monolayer zinc-sulfide: effects of length, temperature and vacancy defects
Of late, atomically thin two-dimensional zinc-sulfide (2D-ZnS) shows great potential for
advanced nanodevices and as a substitute to graphene and transition metal di …
advanced nanodevices and as a substitute to graphene and transition metal di …
Chirality, temperature, and vacancy effects on mechanical behavior of monolayer zinc-sulfide
Structural reliability is one of the most fundamental disquiets for realizing future
nanoelectromechanical systems (NEMS). Of late, atomically thin two-dimensional zinc …
nanoelectromechanical systems (NEMS). Of late, atomically thin two-dimensional zinc …
Combined effect of 13C isotope and vacancies on the phonon properties in AB stacked bilayer graphene
The combined effects of 13 C isotope and vacancies on the phonon properties in AB stacked
bilayer graphene (BLG) are explored theoretically. We have calculated the phonon density …
bilayer graphene (BLG) are explored theoretically. We have calculated the phonon density …
Interlayer vacancy effects on the phonon modes in AB stacked bilayer graphene nanoribbon
We explore the effects of interlayer vacancy defects on the vibrational properties of Bernal
(AB) stacking bilayer armchair graphene nanoribbons (BiAGNRs) using the forced …
(AB) stacking bilayer armchair graphene nanoribbons (BiAGNRs) using the forced …
Phonon transmission of vacancy disordered armchair silicene nanoribbon
This work demonstrates the atomic vacancy effects on the phonon properties of armchair
silicene nanoribbon in a step by step process for the first time. The phonon localization effect …
silicene nanoribbon in a step by step process for the first time. The phonon localization effect …