High Purity 4,4'-Oxydiphenol CAS 1965-09-9: Properties, Applications, and Synthesis
Discover the essential properties and diverse applications of 4,4'-Oxydiphenol, a key organic intermediate for advanced material synthesis.
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4,4'-Oxydiphenol
4,4'-Oxydiphenol, also known as 4,4'-Dihydroxydiphenyl ether, is a vital organic intermediate. With a high purity of 99% and CAS number 1965-09-9, it serves as a foundational building block for numerous advanced chemical applications. Its primary use is in organic synthesis, where it contributes to the creation of high-performance materials.
- This crucial compound is essential for 4,4'-Oxydiphenol synthesis, enabling efficient chemical reactions.
- Explore the diverse 4,4'-Oxydiphenol applications, from advanced polymers to specialty chemicals.
- Understanding the 4,4'-Dihydroxydiphenyl ether properties is key to leveraging its capabilities in various industrial processes.
- The CAS 1965-09-9 uses are extensive, particularly as a precursor in the manufacturing of high-performance resins.
Advantages Offered by 4,4'-Oxydiphenol
Enhanced Material Properties
Utilizing 4,4'-Oxydiphenol in synthesis leads to materials with superior thermal stability and mechanical strength, crucial for demanding applications. This aligns with the need for high-performance polymers.
Versatile Precursor Role
As a precursor, it is instrumental in the production of epoxy resins and phenolic resins, demonstrating its value in Resin Manufacturing. The exploration of its CAS 1965-09-9 uses reveals its broad applicability.
Foundation for Specialty Chemicals
Its structure makes it an ideal starting point for creating flame retardants and other specialty chemicals, highlighting its importance in Specialty Chemical Manufacturing. Understanding these applications is vital.
Key Applications
Polymer Production
4,4'-Oxydiphenol is a key monomer in the synthesis of advanced polymers, contributing to their thermal and mechanical resilience. Its role in Polymer Precursors is significant.
Resin Manufacturing
It is fundamental in the production of high-quality epoxy and phenolic resins, widely used for their durability and resistance. This showcases its importance in Resin Production Technologies.
Flame Retardant Synthesis
The compound serves as a precursor for effective flame retardants, enhancing the safety and performance of various materials. This is a critical aspect of its functionality.
Electronics and Coatings
Its unique properties lend themselves to applications in the electronics industry and the formulation of high-performance coatings and adhesives. These are key markets for its use.