WSeTe Crystals

Description

WSeTe Crystals (Tungsten Selenium Tellurium)

WSeTe is a layered transition metal chalcogenide alloy with a van der Waals structure, exhibiting a tunable bandgap and unique topological properties. As a mixed chalcogenide alloy, WSeTe offers a versatile platform for studying quantum phenomena, spin-orbit coupling, and electronic transport properties.

Sample Size Options:
Crystals larger than 10 mm²
Crystals larger than 25 mm²

Material Properties:
Layered van der Waals structure
Tunable electronic properties based on composition
Strong spin-orbit coupling
High environmental stability

Crystal Structure:
Hexagonal structure with easily cleavable layers, suitable for 2D exfoliation and heterostructure research.

Degree of Exfoliation:
Readily exfoliated into thin layers for 2D material studies.

Other Characteristics:
Tunable bandgap: Transition from semiconductor to semimetal behavior depending on layer thickness
Strong topological and spin-orbit effects, enabling advanced quantum research
Exceptional thermal and chemical stability

Applications:
Quantum Materials Research: Suitable for exploring spin-orbit coupling, topological states, and quantum transport phenomena.
Optoelectronics: Ideal for photodetectors, photovoltaics, and tunable light-emitting devices.
Spintronics: A promising material for spin-related quantum devices.
Heterostructure Fabrication: Perfect for designing 2D heterostructures with other van der Waals materials.
Energy Applications: Useful for catalytic and energy conversion systems, such as hydrogen evolution reactions.