Unlock Advanced Performance with Fluorinated Dicarboxylic Acid
High-purity fluorinated dicarboxylic acid for superior OLEDs and cutting-edge material science.
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![Benzoic acid, 4,4'-[2,2,2-trifluoro-1-(trifluoromethyl)ethylidene]bis-](https://www.nbinno.com/2025/webimg/gemini_688acbae25018_1753926574.png)
Benzoic acid, 4,4'-[2,2,2-trifluoro-1-(trifluoromethyl)ethylidene]bis-
This high-purity fluorinated dicarboxylic acid is a critical component in the development of advanced electronic materials, particularly for OLED (Organic Light-Emitting Diode) applications. Its unique chemical structure imparts enhanced stability and performance characteristics, making it an indispensable intermediate for next-generation display technologies and functional materials.
- Explore the advantages of using this high purity fluorinated dicarboxylic acid in your OLED material synthesis for improved device efficiency.
- Discover the diverse applications of CAS 1171-47-7 in creating novel electronic chemicals with superior properties.
- Leverage this advanced materials synthesis chemical to push the boundaries of material science innovation.
- Investigate the properties of fluorinated benzoic acid derivatives for specialized chemical applications.
Key Advantages
Enhanced Material Stability
The incorporation of fluorine atoms in this benzoic acid derivative contributes to improved thermal and chemical stability, essential for long-lasting electronic devices. Leveraging this advanced materials synthesis chemical can lead to more robust product performance.
Superior Electronic Properties
As a key intermediate for OLED materials, this chemical enables the development of components with optimized charge transport and light-emitting characteristics, directly impacting display quality and energy efficiency. It's a vital part of creating high-performance electronic chemicals.
Versatile Chemical Building Block
Its dicarboxylic acid functionality makes it a versatile building block for various organic syntheses, including polymers and specialty chemicals. Researchers can utilize this high purity fluorinated dicarboxylic acid for a wide range of innovative projects.
Key Applications
OLED Material Synthesis
Crucial for creating high-performance emissive layers and charge transport materials in OLED displays, enhancing brightness and lifespan. Consider this CAS 1171-47-7 chemical for your next OLED development.
Advanced Polymer Development
Serves as a monomer or intermediate in the synthesis of specialty polymers with unique thermal and optical properties, benefiting from the characteristics of fluorinated benzoic acid derivatives.
Research & Development in Electronics
An essential reagent for academic and industrial R&D, enabling exploration of new electronic chemicals and devices. This high purity fluorinated dicarboxylic acid is key for pushing innovation.
Fine Chemical Intermediate
Used in the synthesis of complex organic molecules for various industrial applications, showcasing its role as a versatile advanced materials synthesis chemical.