Functional Crystals There are 111 products.

Subcategories

• 

  Magneto-Optic Crystals

  Our magneto-optic crystals are designed for magneto-optic effects and optical polarization control, offering excellent optical quality and magnetic responsiveness. Widely used in lasers, optical communications, and quantum computing, they meet high stability and precision requirements.

• 

  Laser Crystals

  Our laser crystals are made from high-quality materials, specifically designed for laser applications, offering excellent optical performance and high efficiency. They are widely used in lasers, medical devices, laser marking, and industrial processing, providing stable output power and long lifespan, meeting high precision and high power requirements.

• 

  Scintillation Crystals

  Our scintillation crystals offer excellent optical performance and are widely used in radiation detection, medical imaging, nuclear industry, and particle physics research. Made from high-purity materials, these crystals efficiently convert radiation energy into detectable light signals, providing accurate measurement and detection capabilities with high sensitivity and stability.

• 

  Photoelectric Crystals

  Photoelectric Crystals are a class of functional materials with exceptional photoelectric properties. They are widely used in laser technology, optical modulation, sensors, and communication systems. These crystals enable efficient conversation between light and electricity, offering high sensitivity, fast response, and excellent stability. Common photoelectric crystals include Lithium Niobate (LiNbO3), Lithium Tantalate (LiTaO3), and Potassium Titanyl Phosphate (KTP).

• 

  Infrared Crystals

  Infrared crystals are materials with excellent transmission properties in the infrared spectrum. They are used in optics, sensors, thermal imaging, and lasers. Made from high-purity materials like KBr, Ge, CaF2, LiF, and BaF2, they offer transparency, durability, and resistance to thermal and mechanical stress. These crystals are essential in industries such as defense, medical diagnostics, and scientific research.

• 

  Semiconductor Crystals

  Semiconductor crystals, made from materials like silicon (Si), gallium arsenide (GaAs), and zinc oxide (ZnO), have electrical conductivity between conductors and insulators. They are essential in electronic devices such as transistors, diodes, and solar cells, and are key in industries like telecommunications, computing, and renewable energy.

• 

  Nonlinear Crystals

  Nonlinear Crystals are materials with unique properties that allow them to exhibit a nonlinear response to applied electromagnetic fields. The common nonlinear crystal materials include beta barium borate (BBO), potassium titanyl phosphate (KTP), and lithium niobate (LN), widely applied in frequency conversion, optical amplification, and laser generation.

• 

  Metal Single Crystals

  Metal single crystals are materials with a highly ordered atomic structure, providing superior mechanical, electrical, and thermal properties. These crystals are used in advanced applications like aerospace, electronics, and manufacturing, where high performance and reliability are required. Common metal single crystals include copper, aluminum, nickel, and magnesium.

• 

  Other Crystals

  Other crystal materials with exceptional magnetic and conductive properties, such as ferric oxide (Fe3O4), tin dioxide (SnO2), and cuprous oxide (CuO), are highly effective in applications like magnetic storage, gas sensing, transparent conductive films, and photocatalysis.