Unlock Superior Display Performance with Advanced Trifluoro Biphenyl Intermediates
Experience enhanced display clarity and response times with our high-purity fluorinated biphenyl derivative.
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4''-(trans-4-Propylcyclohexyl)-3,4,5-Trifluoro-Biphenyl
A high-performance fluorinated biphenyl derivative designed for advanced liquid crystal materials, offering exceptional thermal stability, low viscosity, and optimal dielectric anisotropy for fast-response LCD applications and optoelectronic devices. It enhances contrast ratios and response times while maintaining wide nematic phase ranges, ensuring reliability for industrial production and R&D.
- Discover the benefits of using this advanced liquid crystal intermediate in your display technology research.
- Explore the advantages of incorporating trifluorinated biphenyl derivatives for superior optoelectronic device performance.
- Leverage high purity chemical intermediates for reliable organic synthesis and functional material development.
- Achieve faster response times and enhanced contrast ratios in your next-generation LCD displays with this specialized compound.
Key Product Advantages
Exceptional Thermal Stability
Benefit from the robust thermal stability offered by this trifluorinated biphenyl derivative, crucial for demanding electronic applications.
Enhanced Response Times
Achieve faster response times in LCDs, a key requirement for high-end displays, by utilizing this advanced liquid crystal material.
Improved Display Quality
Boost contrast ratios and overall display quality, making it ideal for applications requiring superior visual performance.
Key Applications
Advanced Liquid Crystal Displays
This high-performance fluorinated biphenyl derivative is essential for creating fast-response LCDs, including IPS and VA modes, leading to superior visual experiences.
Optoelectronic Devices
Its optimal dielectric anisotropy and thermal stability make it a prime choice for various optoelectronic devices, ensuring reliable and efficient operation.
Organic Synthesis
Serve as a key intermediate in organic synthesis, enabling the development of novel functional materials with unique properties and applications.
Research and Development
With its high purity (≥99%), this compound is an invaluable tool for research and development in the field of advanced materials and electronics.