Unlock the Potential of 4-Methoxyphenyl 4-((6-hydroxyhexyl)oxy)benzoate
Discover the synthesis, applications, and research potential of this key organic intermediate for advanced materials and medicine.
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4-Methoxyphenyl 4-((6-hydroxyhexyl)oxy)benzoate
This compound, CAS 137407-31-9, is a versatile white powder with 96% purity, serving as a crucial intermediate in the synthesis of high-performance liquid crystal molecules for the LCD industry. Its utility extends to organic synthesis for creating functional materials with unique optical or electrical properties, and it shows promise in medical research for modifying drug carriers or bioactive molecules.
- Discover the latest advancements in liquid crystal material intermediates, leveraging this compound's unique properties for display technology.
- Explore its applications in organic synthesis, enabling the preparation of specialized functional materials with tailored optical or electrical characteristics.
- Investigate its potential in medical research, particularly its role in modifying drug carriers or bioactive molecules for advanced therapeutic applications.
- Learn about the synthesis and properties of 4-methoxyphenyl 4-((6-hydroxyhexyl)oxy)benzoate, essential for researchers in material science and pharmaceuticals.
Key Advantages Offered
Versatile Intermediate
As a key raw material for liquid crystal displays and organic synthesis, this compound offers remarkable versatility for diverse material science applications.
High Purity and Quality
With a stated purity of 96% min, it ensures reliable performance in sensitive applications, supporting the development of advanced materials.
Biomedical Potential
Its potential use in medical research for modifying drug carriers or bioactive molecules opens avenues for innovative pharmaceutical development.
Key Applications
Liquid Crystal Displays (LCDs)
Serves as a crucial raw material for synthesizing high-performance liquid crystal molecules, essential for the modern LCD industry and advancing display technologies.
Organic Synthesis
Used to prepare functional materials possessing specialized optical or electrical properties, contributing to advancements in material science and electronics.
Medical Research
Shows potential in biomedical applications, particularly in the modification of drug carriers or bioactive molecules, paving the way for novel drug delivery systems.
Photonic Materials
Research indicates its use in photonic materials, enhancing optical properties of materials like cholesteric liquid crystals for advanced optical devices.