Boric Anhydride (CAS 1303-86-2): Essential Properties, Diverse Uses & Global Sourcing
Unlock the potential of this versatile chemical for your industry's most demanding applications, from advanced optics to critical electronics.
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Boric Anhydride
Boric Anhydride is a foundational chemical compound, indispensable across various high-tech and traditional industries due to its unique properties as a powerful fluxing agent, a crucial raw material for advanced boron compounds, and a precise doping source in semiconductor manufacturing. Its high purity and consistent quality ensure superior performance in demanding applications, driving innovation in glass, ceramics, and electronics.
- Discover why Boric Anhydride (CAS 1303-86-2) is the preferred choice for optimizing your industrial processes.
- Leverage its effectiveness as a versatile fluxing agent to achieve superior results in glass and enamel production.
- Explore its critical role as a semiconductor doping source, essential for high-performance electronic components.
- Utilize Boric Anhydride as a key raw material for boron compounds, opening doors to new chemical innovations.
Product Advantages
Enhanced Material Performance
Achieve superior quality and durability in your products, especially in glass manufacturing and enamel coatings, by incorporating high-purity Boric Anhydride.
Precision in High-Tech Production
Benefit from its precise capabilities as a Diboron trioxide semiconductor doping source, ensuring optimal conductivity and efficiency in electronic devices.
Versatility for Chemical Synthesis
As an acid catalyst in organic synthesis, Boric Anhydride offers broad utility, facilitating various chemical reactions and producing diverse boron compounds.
Key Applications
Glass and Enamel Manufacturing
Boric Anhydride acts as a powerful fluxing agent, lowering melting points and improving durability and optical properties in glass and enamel production.
Semiconductor Industry
Essential as a semiconductor silicon doping source, it enables the creation of advanced electronic components with precise electrical characteristics.
Specialty Boron Compounds
It serves as a fundamental raw material for boron compounds, including boron carbide, crucial for various industrial and research applications.
Optical Fiber Production
Crucial as an Optical Fiber Chemical Additive, Boric Anhydride enhances the optical properties and stability of glass fibers, vital for telecommunications.