Description
V-Doped MoSe₂ Crystals (Vanadium-Doped Molybdenum Diselenide)
V-doped MoSe₂ is a layered transition metal dichalcogenide (TMDC) with a van der Waals structure. Vanadium doping introduces magnetic properties, modifies the electronic band structure, and enhances the material’s catalytic and optoelectronic performance. These characteristics make V-doped MoSe₂ a promising material for spintronics, quantum research, and energy applications.
Sample Size Options:
Crystals larger than 10 mm²
Crystals larger than 25 mm²
Crystals larger than 100 mm²
Material Properties:
Layered Van der Waals Structure: Facilitates exfoliation into monolayers or few-layer sheets for 2D studies.
Magnetic Behavior: Vanadium doping introduces magnetic properties, enabling spintronic and magnetic applications.
Enhanced Catalytic Activity: Improved performance in hydrogen evolution reactions (HER) and other electrocatalytic processes.
Optoelectronic Properties: Enhanced photoluminescence and charge carrier mobility for advanced devices.
Crystal Structure:
Type: Hexagonal layered structure
Features: Cleavable layers ideal for thin-film fabrication and nanoscale research.
Degree of Exfoliation:
Ease of Use: Readily exfoliates into thin layers for advanced research and device integration.
Other Characteristics:
Quantum Applications: Enables exploration of doping-induced quantum phenomena and spin-related behaviors.
Energy Applications: Promising for catalysis and energy storage systems.
Tunable Electronic Properties: Doping allows for bandgap modification and enhanced electronic performance.
Applications:
Spintronics:
Suitable for spin-based devices and exploring spin-orbit interactions in doped TMDCs.
Optoelectronics:
Ideal for light-emitting diodes, photodetectors, and photovoltaic devices.
Quantum Materials Research:
Enables studies on magnetic and quantum phenomena in 2D materials.
Energy Applications:
High catalytic activity for hydrogen evolution reactions (HER) and energy conversion technologies.
2D Material Studies:
Perfect for integration into van der Waals heterostructures and nanoscale devices.
Additional information
| CAS Number | N/A |
|---|