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 …
Recent developments in two-dimensional layered tungsten dichalcogenides based materials for gas sensing applications
Layered transition metal dichalcogenides (2D-TMDs) are promising materials for critical
applications in the fields of electronics, gas detection, energy storage and conversion, etc …
applications in the fields of electronics, gas detection, energy storage and conversion, etc …
[HTML][HTML] Femtosecond laser thinning for resistivity control of tungsten ditelluride thin-films synthesized from sol-gel deposited tungsten oxide
In this work we present a route for fabricating WTe 2 thin-films together with femtosecond
laser post processing, enabling to finely control the conductivity. First, we produce …
laser post processing, enabling to finely control the conductivity. First, we produce …
Synthesis of tungsten ditelluride thin films and highly crystalline nanobelts from pre-deposited reactants
Tungsten ditelluride (WTe 2) is a layered transition metal dichalcogenide (TMD) that has
attracted increasing research interest in recent years. WTe 2 has demonstrated large non …
attracted increasing research interest in recent years. WTe 2 has demonstrated large non …
Femtosecond laser thinning for resistivity control of tungsten ditelluride thin-films synthesized from sol-gel deposited tungsten oxide
A Fernández García, M García-Lechuga… - 2024 - digital.csic.es
In this work we present a route for fabricating WTe thin-films together with femtosecond laser
post processing, enabling to finely control the conductivity. First, we produce amorphous …
post processing, enabling to finely control the conductivity. First, we produce amorphous …