Germanium‐based monoelemental and binary two‐dimensional materials: Theoretical and experimental investigations and promising applications
Abstract Two‐dimensional (2D) materials based on group IVA elements have attracted
extensive attention owing to their rich chemical structures and novel properties. This …
extensive attention owing to their rich chemical structures and novel properties. This …
Strain engineering of Janus ZrSSe and HfSSe monolayers and ZrSSe/HfSSe van der Waals heterostructure
We investigated the effects of biaxial strain on electronic structure of ZrS 2, ZrSe 2, HfS 2,
HfSe 2, ZrSSe and HfSSe monolayers. Similar to ZrS 2, ZrSe 2, HfS 2, HfSe 2 monolayers …
HfSe 2, ZrSSe and HfSSe monolayers. Similar to ZrS 2, ZrSe 2, HfS 2, HfSe 2 monolayers …
A review of the top of the barrier nanotransistor models for semiconductor nanomaterials
The modelling and simulation of low-dimensional nanoelectronic devices is important,
because the semiconductor industry has scaled transistors down to the sub-10 nm regime …
because the semiconductor industry has scaled transistors down to the sub-10 nm regime …
[HTML][HTML] Impact of phonon scattering mechanisms on the performance of silicene nanoribbon field-effect transistors
Rigorous efforts are invested globally in the semiconductor industry to leverage next-
generation nanoelectronics beyond Moore's law. Among them, silicene is foreseen as a …
generation nanoelectronics beyond Moore's law. Among them, silicene is foreseen as a …
Electronic properties and carrier transport properties of low-dimensional aluminium doped silicene nanostructure
Unlike graphene which requires redesigned fabrication technique, silicene is predicted to be
compatible with the silicon wafer technology. However, similar to graphene, the gapless …
compatible with the silicon wafer technology. However, similar to graphene, the gapless …
Low-dimensional modelling of n-type doped silicene and its carrier transport properties for nanoelectronic applications
Silicene, a 2D allotrope of silicon, is predicted to be a potential material for future transistor
that might be compatible with present silicon fabrication technology. Similar to graphene …
that might be compatible with present silicon fabrication technology. Similar to graphene …
Predicting Irida-Silicene: A Novel 2D Silicon Allotrope
DS Gomes, LA Ribeiro Jr, ML Pereira Jr - ACS Omega, 2024 - ACS Publications
Two-dimensional (2D) silicon-based materials have garnered significant attention for their
promising properties, making them suitable for various advanced technological applications …
promising properties, making them suitable for various advanced technological applications …
Geometric, electronic, and transport predictions on two-dimensional semiconducting silicon with kagome lattice: implications for nanoscale field-effect transistor …
Two-dimensional (2D) semiconducting silicon (Si) is significant for the development of
micro/nanoelectronics because of their compatibility with the current Si-based technology …
micro/nanoelectronics because of their compatibility with the current Si-based technology …
Extending the scaling limit of silicon channel transistors through hhk-silicene monolayer: A computational study
Conventional bulk silicon is approaching its physical limit in the continued scaling of field-
effect transistors (FETs). To extend the scaling limit of silicon-FETs, 2-D silicon …
effect transistors (FETs). To extend the scaling limit of silicon-FETs, 2-D silicon …
Device modelling and performance analysis of two-dimensional AlSi3 ballistic nanotransistor
Silicene is an emerging two-dimensional (2D) semiconductor material which has been
envisaged to be compatible with conventional silicon technology. This paper presents a …
envisaged to be compatible with conventional silicon technology. This paper presents a …