Sb₂Te Crystals

Description

Sb₂Te Crystals (Antimony Telluride)

Sb₂Te is a layered thermoelectric material with a van der Waals structure, widely recognized for its exceptional thermoelectric performance and unique electronic properties. Its high Seebeck coefficient, low thermal conductivity, and excellent carrier mobility make it a leading material for energy harvesting, quantum materials research, and advanced optoelectronics. Our Sb₂Te crystals are synthesized using the Chemical Vapor Transport (CVT) method, ensuring high purity, precise stoichiometry, and superior crystallinity for advanced applications.

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

Material Properties:
Layered Van der Waals Structure: Enables exfoliation into thin layers for 2D material studies.
Thermoelectric Performance: High efficiency with a large Seebeck coefficient and low thermal conductivity.
Electronic Conductivity: Excellent carrier mobility, suitable for electronic applications.
Optical Absorption: Strong absorption in the visible and near-infrared range.

Crystal Structure:
Type: Rhombohedral layered structure
Features: Cleavable layers, ideal for thin-film fabrication and nanoscale research.

Degree of Exfoliation:
Ease of Use: Readily exfoliates into monolayers or few-layer sheets for advanced research.

Other Characteristics:
Thermoelectric Efficiency: Ideal for power generation and thermal management applications.
Quantum Properties: Suitable for studying low-dimensional electronic and thermoelectric phenomena.
Optoelectronic Potential: Promising for photonic and energy applications.

Applications:
Thermoelectric Devices:
Ideal for energy harvesting, cooling systems, and thermal-to-electric conversion.
Quantum Materials Research:
Enables exploration of low-dimensional transport and topological phenomena.
2D Material Studies:
Suitable for exfoliation into thin layers and integration with van der Waals heterostructures.
Optoelectronics:
Promising for photodetectors, infrared sensors, and other photonic devices.
Energy Applications:
Suitable for thermoelectric energy conversion and energy storage systems.