In₃SbTe₂ Crystals

Description

In₃SbTe₂ Crystals (Indium Antimony Telluride)

In₃SbTe₂ is a layered ternary chalcogenide material with unique electronic, optical, and thermoelectric properties. Its strong thermoelectric performance, tunable electronic behavior, and layered structure make it an excellent candidate for advanced materials research, energy applications, and 2D material studies. Our In₃SbTe₂ crystals are synthesized using the Chemical Vapor Transport (CVT) method to ensure high purity, precise stoichiometry, and exceptional crystallinity for cutting-edge research.

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

Material Properties:
Layered Van der Waals Structure: Facilitates exfoliation into thin layers for 2D material research.
Thermoelectric Properties: Exhibits a high Seebeck coefficient and excellent thermoelectric efficiency.
Semiconducting Behavior: Features tunable electronic properties suitable for optoelectronics and energy applications.
Optical Properties: Strong absorption in the visible and infrared regions.

Crystal Structure:
Type: Layered rhombohedral structure
Features: Cleavable layers, ideal for thin-film fabrication and 2D studies.

Degree of Exfoliation:
Ease of Use: Easily exfoliates into monolayers or few-layer sheets for advanced device fabrication.

Other Characteristics:
Thermoelectric Efficiency: Ideal for power generation and cooling applications.
Optoelectronic Potential: Suitable for photonic devices due to its strong absorption properties.
Environmental Stability: Stable under inert conditions, sensitive to air and moisture.

Applications:
Energy Applications:
Suitable for thermoelectric devices and energy harvesting technologies.
Optoelectronics:
Ideal for photodetectors, light-emitting devices, and solar energy harvesting.
2D Material Research:
Perfect for exfoliation into thin layers and integration into van der Waals heterostructures.
Quantum Materials Research:
Enables exploration of low-dimensional electronic and thermal properties.
Sensors:
High sensitivity to environmental changes, making it suitable for advanced sensing applications.