High-Purity 1-Bromo-4-(trans-4-butylcyclohexyl)benzene: A Key Intermediate for Advanced Liquid Crystal Displays
Unlock next-generation display technology with our premium brominated aromatic compound, designed for superior performance.
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1-Bromo-4-(trans-4-butylcyclohexyl)benzene
An essential brominated aromatic compound widely utilized in the development of advanced liquid crystal formulations for high-performance display applications, including TFT-LCDs and next-generation OLED devices. Its specialized trans-cyclohexyl structure combined with a butyl chain significantly enhances molecular stability while maintaining optimal mesomorphic properties, making it particularly valuable for LC mixtures designed to operate across a wide temperature range.
- Unlock Enhanced Display Performance Discover how this high purity brominated aromatic compound is crucial for achieving superior results in advanced liquid crystal applications.
- Leverage Advanced Material Properties Utilize the unique trans-cyclohexyl structure chemical for enhanced molecular stability and optimal mesomorphic properties in your formulations.
- Facilitate Complex Organic Architectures This compound is ideal for both industrial and research applications requiring precise molecular control, especially in palladium-catalyzed cross-coupling reactions.
- Investigate Pharmaceutical and Material Advancements Explore its utility as a key pharmaceutical synthesis intermediate and in cutting-edge material science research chemicals.
Advantages It Brings
Superior Display Clarity
Achieve exceptional visual performance in TFT-LCDs and OLEDs by incorporating this essential liquid crystal intermediate CAS 516510-78-4.
Wide Temperature Range Suitability
Its optimized mesomorphic properties ensure reliable performance across diverse environmental conditions, a key benefit for butylcyclohexyl benzene derivative applications.
Versatile Chemical Reactivity
As a potent intermediate, it facilitates complex syntheses through reactions like palladium-catalyzed cross-coupling, enabling the creation of intricate organic structures.
Key Applications
Liquid Crystal Formulations
Essential for creating advanced liquid crystal materials used in modern display technologies, offering precise molecular control.
Pharmaceutical Synthesis
Serves as a valuable building block in the synthesis of complex organic molecules for pharmaceutical research and development.
Advanced Material Research
Its unique chemical structure makes it a key component in the exploration and development of novel materials with specialized properties.
Organic Synthesis Intermediates
Plays a critical role in organic chemistry, particularly in palladium-catalyzed reactions for constructing sophisticated molecular architectures.