High-Purity 4-(trans-4-Butylcyclohexyl)benzoic Acid for Advanced Applications
Unlock innovative material science with a key intermediate for liquid crystals and specialty polymers.
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4-(trans-4-Butylcyclohexyl)benzoic acid
This high-purity organic compound, CAS: 83626-35-1, is a critical building block for advanced materials. Its unique molecular structure makes it an essential intermediate in the synthesis of liquid crystalline materials vital for display technologies. We offer reliable supply for your liquid crystal intermediate synthesis needs.
- Unlock cutting-edge display technologies by utilizing this compound as a key intermediate in liquid crystal intermediate synthesis, ensuring optimal optical and dielectric properties.
- Drive pharmaceutical development forward by incorporating this compound into your research for creating novel bioactive molecules with tailored steric profiles.
- Explore new frontiers in material science with this compound, ideal for specialty polymers and organic semiconductors.
- Ensure consistent performance in your studies, as this compound is rigorously tested for purity and consistency, supporting reliable outcomes in material science studies.
Advantages Offered by the Product
Superior Material Properties
Leverage the unique steric and electronic properties of this benzoic acid derivative to enhance the performance of your end products, contributing to superior optical anisotropy and dielectric characteristics.
Broad Application Spectrum
Its versatility as an intermediate makes it valuable across multiple industries, from advanced displays to pharmaceutical development, facilitating diverse research and manufacturing processes.
Guaranteed Purity and Consistency
Trust in the quality of our offerings, where each batch undergoes stringent quality control to ensure the high purity required for advanced research applications and consistent results.
Key Applications
Liquid Crystal Synthesis
Crucial for creating advanced liquid crystalline materials used in modern displays, offering excellent optical anisotropy and dielectric properties essential for display technologies.
Pharmaceutical Research
Serves as a vital building block for designing novel bioactive molecules, allowing researchers to tailor steric profiles for enhanced efficacy in pharmaceutical development.
Specialty Polymers
Enables the synthesis of high-performance polymers with improved mechanical strength and thermal stability, opening avenues for applications in flexible displays and printed electronic materials.
Organic Semiconductors
Its unique chemical structure makes it suitable for research in novel organic semiconductors and supramolecular assemblies, pushing the boundaries of material science.