The future of two-dimensional semiconductors beyond Moore's law
The primary challenge facing silicon-based electronics, crucial for modern technological
progress, is difficulty in dimensional scaling. This stems from a severe deterioration of …
progress, is difficulty in dimensional scaling. This stems from a severe deterioration of …
2D materials in flexible electronics: recent advances and future prospectives
Flexible electronics have recently gained considerable attention due to their potential to
provide new and innovative solutions to a wide range of challenges in various electronic …
provide new and innovative solutions to a wide range of challenges in various electronic …
12-inch growth of uniform MoS2 monolayer for integrated circuit manufacture
Abstract Two-dimensional (2D) semiconductors, such as transition metal dichalcogenides,
provide an opportunity for beyond-silicon exploration. However, the lab to fab transition of …
provide an opportunity for beyond-silicon exploration. However, the lab to fab transition of …
Understanding epitaxial growth of two-dimensional materials and their homostructures
The exceptional physical properties of two-dimensional (2D) van der Waals (vdW) materials
have been extensively researched, driving advances in material synthesis. Epitaxial growth …
have been extensively researched, driving advances in material synthesis. Epitaxial growth …
Monolithic 3D integration of 2D materials-based electronics towards ultimate edge computing solutions
Abstract Three-dimensional (3D) hetero-integration technology is poised to revolutionize the
field of electronics by stacking functional layers vertically, thereby creating novel 3D circuity …
field of electronics by stacking functional layers vertically, thereby creating novel 3D circuity …
Critical challenges in the development of electronics based on two-dimensional transition metal dichalcogenides
The development of high-performance electronic devices based on two-dimensional (2D)
transition metal dichalcogenide semiconductors has recently advanced from one-off proof-of …
transition metal dichalcogenide semiconductors has recently advanced from one-off proof-of …
Vapour-phase deposition of two-dimensional layered chalcogenides
Abstract Two-dimensional (2D) layered materials are attracting a lot of attention because of
unique physicochemical properties that are intriguing for both fundamental research and …
unique physicochemical properties that are intriguing for both fundamental research and …
Interfacial epitaxy of multilayer rhombohedral transition-metal dichalcogenide single crystals
Rhombohedral-stacked transition-metal dichalcogenides (3R-TMDs), which are distinct from
their hexagonal counterparts, exhibit higher carrier mobility, sliding ferroelectricity, and …
their hexagonal counterparts, exhibit higher carrier mobility, sliding ferroelectricity, and …
Monolithic three-dimensional integration of complementary two-dimensional field-effect transistors
The semiconductor industry is transitioning to the 'More Moore'era, driven by the adoption of
three-dimensional (3D) integration schemes surpassing the limitations of traditional two …
three-dimensional (3D) integration schemes surpassing the limitations of traditional two …
Three-dimensional integration of two-dimensional field-effect transistors
In the field of semiconductors, three-dimensional (3D) integration not only enables
packaging of more devices per unit area, referred to as 'More Moore'but also introduces …
packaging of more devices per unit area, referred to as 'More Moore'but also introduces …