Functionalization of 2D materials by intercalation
Since the discovery of graphene many studies focused on its functionalization by different
methods. These strategies aim to find new pathways to overcome the main drawback of …
methods. These strategies aim to find new pathways to overcome the main drawback of …
A perspective on the application of spatially resolved ARPES for 2D materials
M Cattelan, NA Fox - Nanomaterials, 2018 - mdpi.com
In this paper, a perspective on the application of Spatially-and Angle-Resolved
PhotoEmission Spectroscopy (ARPES) for the study of two-dimensional (2D) materials is …
PhotoEmission Spectroscopy (ARPES) for the study of two-dimensional (2D) materials is …
[HTML][HTML] Band gap formation of 2D materialin graphene: Future prospect and challenges
Graphene, a single particle thicker carbon layer with a hexagonal form, was successfully
confined, and the potential electrical impact was observed in 2004. Since a surge in study …
confined, and the potential electrical impact was observed in 2004. Since a surge in study …
Rationally designed graphene channels for real‐time sodium ion detection for electronic tongue
Monitoring taste‐inducing ions and molecules continuously in liquids or solutions is of great
considerable matter for the realization of the electronic tongue (E‐tongue). Particularly from …
considerable matter for the realization of the electronic tongue (E‐tongue). Particularly from …
Orbital Hall effect as an alternative to valley Hall effect in gapped graphene
Gapped graphene has been proposed to be a good platform to observe the valley Hall
effect, a transport phenomenon involving the flow of electrons that are characterized by …
effect, a transport phenomenon involving the flow of electrons that are characterized by …
Auger recombination in Dirac materials: A tangle of many-body effects
G Alymov, V Vyurkov, V Ryzhii, A Satou, D Svintsov - Physical Review B, 2018 - APS
The peculiar electron dispersion in Dirac materials makes lowest-order Auger processes
prohibited or marginally prohibited by energy and momentum conservation laws. Thus …
prohibited or marginally prohibited by energy and momentum conservation laws. Thus …
Spin gapless semiconductor and half-metal properties in magnetic penta-hexa-graphene nanotubes
Abstract Penta-hexa-graphene (PHG) is the name given to a novel puckered monolayer of
carbon atoms tightly packed into an inerratic mixing pentagonal and hexagonal network …
carbon atoms tightly packed into an inerratic mixing pentagonal and hexagonal network …
Dirac cone move and bandgap on/off switching of graphene superlattice
TT Jia, MM Zheng, XY Fan, Y Su, SJ Li, HY Liu… - Scientific reports, 2016 - nature.com
Using the density functional theory with generalized gradient approximation, we have
studied in detail the cooperative effects of degenerate perturbation and uniaxial strain on …
studied in detail the cooperative effects of degenerate perturbation and uniaxial strain on …
Electronic properties of doped graphene nanoribbon and the electron distribution contours: A DFT study
ML Jabbar, KJ Kadhim - Russian Journal of Physical Chemistry B, 2021 - Springer
Graphene nanoribbons are primary components in the advance of graphene
nanoelectronics. Consequently, there are a significant progress in the numerous fabrication …
nanoelectronics. Consequently, there are a significant progress in the numerous fabrication …
Femtosecond electron dynamics in graphene nanoribbons–a nonequilibrium Green functions approach within an extended Hubbard model
A new approach to study the correlated femtosecond electron dynamics in finite graphene
clusters, such as nanoribbons, is presented here. The systems are described by an …
clusters, such as nanoribbons, is presented here. The systems are described by an …