FeBr₃ Crystals

Description

FeBr₃ Crystals

FeBr₃ is a layered transition metal halide material with a van der Waals structure, exhibiting antiferromagnetic ordering and intriguing electronic properties. This material is gaining significant attention for its potential applications in spintronics, magneto-optics, and 2D material studies. Our FeBr₃ crystals are synthesized using a high-temperature vapor transport method, ensuring high purity, excellent structural quality, and stable magnetic properties.

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

Material Properties:
Intrinsic antiferromagnetism at low temperatures
Layered van der Waals structure
Transition metal halide with tunable magnetic and electronic properties

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

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

Other Characteristics:
Stable antiferromagnetic ordering below the Néel temperature (~15–20 K)
Exceptional environmental stability under inert conditions
Suitable for optical, magnetic, and electronic device research

Applications:
Spintronics: A promising material for spin-based devices and antiferromagnetic memory systems.
Quantum Materials Research: Enables exploration of low-dimensional magnetism and correlated electronic states.
Magnetic Sensors: Useful for nanoscale magnetic field sensing and advanced magnetic applications.
Optoelectronics: Integrates with other 2D materials for tunable optical and electronic properties.
2D Material Studies: Ideal for investigating interlayer interactions and heterostructure designs.