Structure modulation of two-dimensional transition metal chalcogenides: recent advances in methodology, mechanism and applications
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Abstract 2D semiconductors are emerging as plausible candidates for next‐generation
“More‐than‐Moore” nanoelectronics to tackle the scaling challenge of transistors. Wafer …
“More‐than‐Moore” nanoelectronics to tackle the scaling challenge of transistors. Wafer …
Atomic and structural modifications of two-dimensional transition metal dichalcogenides for various advanced applications
Two-dimensional (2D) transition metal dichalcogenides (TMDs) and their heterostructures
have attracted significant interest in both academia and industry because of their unusual …
have attracted significant interest in both academia and industry because of their unusual …
Wafer-scale production of patterned transition metal ditelluride layers for two-dimensional metal–semiconductor contacts at the Schottky–Mott limit
A key challenge in the development of two-dimensional (2D) devices is the fabrication of
metal–semiconductor junctions with minimal contact resistance and depinned energy levels …
metal–semiconductor junctions with minimal contact resistance and depinned energy levels …
Synergistic additive-mediated CVD growth and chemical modification of 2D materials
Research on 2D materials has recently become one of the hottest topics that has attracted
broad interdisciplinary attention. 2D materials offer fascinating platforms for fundamental …
broad interdisciplinary attention. 2D materials offer fascinating platforms for fundamental …
Emergence of high piezoelectricity along with robust electron mobility in Janus structures in semiconducting Group IVB dichalcogenide monolayers
Piezoelectric nanomaterials have been emerging as flagship materials for harvesting
nanoelectromechanical energy. Pristine, semiconducting 1T-MX2 (M= Zr and Hf; X= S, Se …
nanoelectromechanical energy. Pristine, semiconducting 1T-MX2 (M= Zr and Hf; X= S, Se …