High-Purity Anhydrous Gallium Chloride GaCl3 mesh Powder Customized

Chemical Formula: GaCl3

CAS: 13450-90-3

Model: Sup-GaCl3

Purity: 99.99%-99.999% (Customized)

Description: Discover our High-Purity Anhydrous Gallium Fluoride (GaF3) powder, customized for your specific applications in the semiconductor and materials science industries. Known for its excellent electrical insulation properties and thermal stability, GaF3 is ideal for use as a dopant in semiconductor materials, as well as in optoelectronic devices like lasers and photodetectors. Our high-purity GaF3 powder ensures optimal performance in high-frequency and high-temperature applications. Explore how our customized solutions can enhance your research and development efforts in advanced electronic materials.

Product Description

Chemical Name: Anhydrous Gallium Chloride

Chemical Formula: GaCl3

CAS: 13450-90-3

Purity: 99.99%-99.999% (Customized)

Specifications: -60 mesh powder.

High-Purity Anhydrous Gallium Chloride (GaCl3) is an important inorganic compound widely used in materials science, chemical synthesis, and the semiconductor industry. As a chloride, GaCl3 exhibits excellent chemical stability and thermal stability, making it suitable for the production of various high-performance materials and electronic devices.

Physical and Chemical Properties

- Appearance: High-purity anhydrous gallium chloride typically appears as a white or colorless crystalline solid, making it easy to handle and store.

- Density: GaCl3 has a density of approximately 2.9 g/cm³, indicating its relatively high mass.

- Melting Point: It has a high melting point, suitable for use under elevated temperature conditions, ensuring material stability.

- Solubility: Anhydrous gallium chloride is soluble in water, forming gallium chloride hydrates.

Applications

The main applications of high-purity anhydrous gallium chloride include:

1. Catalysts: Used as a catalyst in chemical reactions, facilitating processes, especially in organic synthesis and polymerization reactions.

2. Semiconductor Materials: Employed in the manufacture of semiconductor materials as a dopant to improve conductivity and performance.

3. Optoelectronic Devices: Applied in photodetectors and lasers, enhancing device efficiency and response speed.

4. Materials Science: Serves as a key component in new materials, promoting novel synthesis and application research.

Summary

High-purity anhydrous gallium chloride, with its superior physical and chemical properties, shows significant application potential in materials science and the semiconductor industry. As technology continues to advance, it will play an important role in the development of new electronic devices and high-performance materials.

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