High Purity (trans,trans)-4-Ethyl-4'-propyl-1,1'-bicyclohexyl for Advanced Liquid Crystal Displays
Unlock superior display performance with our premium bicyclic compound, engineered for cutting-edge LCD technology.
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(trans,trans)-4-Ethyl-4'-propyl-1,1'-bicyclohexyl
This high-purity bicyclic compound is essential for advanced liquid crystal materials. Its intrinsic rigid, trans-configured structure significantly boosts thermal stability and refines mesomorphic properties, making it the material of choice for next-generation liquid crystal displays (LCDs).
- Leverage the superior thermal stability and mesomorphic properties offered by this trans,trans-4-Ethyl-4'-propyl-1,1'-bicyclohexyl for advanced liquid crystal displays.
- Utilize this high purity bicyclic compound as a key intermediate for chiral dopants and optoelectronic materials in organic synthesis applications.
- Ensure consistent performance in research and industrial applications with a purity of 98% or higher, essential for precise (trans,trans)-4-Ethyl-4'-propyl-1,1'-bicyclohexyl synthesis.
- Achieve optimal results in formulations requiring low viscosity and broad nematic phase ranges by selecting CAS 96624-41-8.
Key Advantages
Enhanced Display Performance
The unique molecular structure of (trans,trans)-4-Ethyl-4'-propyl-1,1'-bicyclohexyl leads to enhanced thermal stability and superior mesomorphic properties, crucial for fast-switching TN, IPS, and VA panels.
Versatile Organic Synthesis Role
Serves as a vital intermediate in organic synthesis, enabling the creation of specialized chiral dopants and advanced optoelectronic materials.
Guaranteed Purity and Consistency
With a purity of 98%+, this compound guarantees reliable and consistent outcomes in both laboratory research and large-scale industrial production of liquid crystal materials.
Key Applications
Liquid Crystal Displays (LCDs)
Improves the performance of advanced LCD panels, including fast-switching TN, IPS, and VA types, by providing excellent thermal stability and mesomorphic properties from (trans,trans)-4-Ethyl-4'-propyl-1,1'-bicyclohexyl.
Organic Synthesis
Acts as a crucial building block for synthesizing chiral dopants and other complex organic molecules used in specialized chemical applications.
Optoelectronic Materials
Contributes to the development of new optoelectronic devices due to its unique structural and electronic properties, a key aspect when researching electronic materials.
Research and Development
Provides a reliable, high-purity chemical intermediate for academic and industrial R&D focused on next-generation display technologies and advanced materials.
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