High-Performance Polymer Monomer: 2,2-Bis(4-aminophenyl)hexafluoropropane
Unlock advanced material properties with this key fluorinated organic compound.
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2,2-Bis(4-aminophenyl)hexafluoropropane
This article explores 2,2-Bis(4-aminophenyl)hexafluoropropane (CAS 1095-78-9), a critical fluorinated organic monomer. It highlights its extensive use in the synthesis of advanced materials, including high-performance polymers such as polyimides and polyamides. The compound's unique chemical structure contributes to enhanced thermal stability and mechanical properties in the resulting polymers.
- Discover the key role of 2,2-Bis(4-aminophenyl)hexafluoropropane in advanced polymer synthesis, enabling the creation of materials with superior performance characteristics.
- Explore its application as an essential OLED intermediate chemical, contributing to the development of next-generation display technologies.
- Learn how this compound acts as a stabilizer for direct and blended dyes, improving the quality and longevity of colored products.
- Understand its function as a reactant in the crosslinking and stabilization of nanoparticle-filled polymethylpentyne nanocomposite membranes for efficient gas separations.
Advantages Offered
Enhanced Polymer Properties
Leverage the benefits of fluorinated organic monomer for polymers to achieve improved thermal stability, chemical resistance, and mechanical strength in your polymer applications.
Material for Advanced Electronics
Utilize this compound as a vital OLED intermediate chemical, paving the way for more efficient and durable organic light-emitting diode devices.
Improved Product Longevity
Benefit from its role as a stabilizer for dyes and plastics, enhancing product lifespan and performance consistency, making it a valuable specialty chemical for dye and plastic stabilization.
Key Applications
High-Performance Polymers
As a polymerization monomer, it is fundamental in creating advanced polymers like polyimides and polyamides known for their exceptional thermal and mechanical properties.
OLED Technology
Serves as a critical intermediate for OLED materials, contributing to the development of advanced electronic displays through its unique chemical structure.
Gas Separation Membranes
Plays a vital role in stabilizing nanoparticle-filled polymethylpentyne nanocomposite membranes, enhancing their effectiveness in gas separations.
Dyes and Plastics
Acts as a stabilizer in the production of direct and blended dyes, and plastic products, contributing to their improved quality and durability.
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