Sub-10 nm two-dimensional transistors: Theory and experiment
Presently Si-based field-effect transistors (FETs) are approaching their physical limit, and
further scaling their gate length down to the sub-10 nm region is becoming extremely …
further scaling their gate length down to the sub-10 nm region is becoming extremely …
Heterostructure engineering of 2D superlattice materials for electrocatalysis
Exploring low‐cost and high‐efficient electrocatalyst is an exigent task in developing novel
sustainable energy conversion systems, such as fuel cells and electrocatalytic fuel …
sustainable energy conversion systems, such as fuel cells and electrocatalytic fuel …
Schottky barrier heights in two-dimensional field-effect transistors: from theory to experiment
Over the past decade, two-dimensional semiconductors (2DSCs) have aroused wide
interest due to their extraordinary electronic, magnetic, optical, mechanical, and thermal …
interest due to their extraordinary electronic, magnetic, optical, mechanical, and thermal …
Microscopic manipulation of ferroelectric domains in SnSe monolayers at room temperature
K Chang, F Küster, BJ Miller, JR Ji, JL Zhang… - Nano …, 2020 - ACS Publications
Two-dimensional (2D) van der Waals ferroelectrics provide an unprecedented architectural
freedom for the creation of artificial multiferroics and nonvolatile electronic devices based on …
freedom for the creation of artificial multiferroics and nonvolatile electronic devices based on …
Colloquium: Physical properties of group-IV monochalcogenide monolayers
The state-of-the-art knowledge of ferroelectric and ferroelastic group-IV monochalcogenide
monolayers is surveyed. These semiconductors feature remarkable structural and …
monolayers is surveyed. These semiconductors feature remarkable structural and …
Review of anisotropic 2D materials: controlled growth, optical anisotropy modulation, and photonic applications
Anisotropic 2D materials are promising building blocks for future photonic and
optoelectronic devices due to their low structural symmetry and in‐plane optical anisotropy …
optoelectronic devices due to their low structural symmetry and in‐plane optical anisotropy …
Recent advances in SnSe nanostructures beyond thermoelectricity
Layered SnSe is an emerging class of black phosphorus, which is non‐toxic, eco‐friendly,
and chemically stable. Recently, SnSe nanostructures have triggered more research interest …
and chemically stable. Recently, SnSe nanostructures have triggered more research interest …
General strategies to improve thermoelectric performance with an emphasis on tin and germanium chalcogenides as thermoelectric materials
Thermoelectric (TE) materials have attracted tremendous research interests over the past
few decades, due to their application in power generation technology from waste heat …
few decades, due to their application in power generation technology from waste heat …
Giant exciton-enhanced shift currents and direct current conduction with subbandgap photo excitations produced by many-electron interactions
Shift current is a direct current generated from nonlinear light–matter interaction in a
noncentrosymmetric crystal and is considered a promising candidate for next-generation …
noncentrosymmetric crystal and is considered a promising candidate for next-generation …
Recent advances in 2D metal monochalcogenides
AS Sarkar, E Stratakis - Advanced Science, 2020 - Wiley Online Library
The family of emerging low‐symmetry and structural in‐plane anisotropic two‐dimensional
(2D) materials has been expanding rapidly in recent years. As an important emerging …
(2D) materials has been expanding rapidly in recent years. As an important emerging …