Myristoyl Chloride CAS 112-64-1: Synthesis, Properties, and Applications in OLEDs and Pharmaceuticals
Exploring the essential role of this versatile acyl chloride in cutting-edge industries like OLEDs and pharmaceuticals.
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Myristoyl Chloride
Myristoyl chloride (CAS 112-64-1) is a highly versatile acyl chloride vital for organic synthesis and chemical manufacturing. Its unique properties make it indispensable in the production of myristoyl derivatives, essential for formulating surfactants, emulsifiers, and various pharmaceutical intermediates. Its reactivity facilitates efficient acylation of alcohols and amines, establishing it as a key tool for developing new compounds and enhancing existing formulations across diverse sectors.
- Discover the intricate synthesis of myristoyl chloride and its critical role in producing high-performance surfactants.
- Explore the diverse applications of tetradecanoyl chloride properties in pharmaceutical synthesis, particularly for lipid-based drug delivery systems.
- Understand why myristoyl chloride is a sought-after intermediate for OLED materials, contributing to advanced electronic displays.
- Learn about the chemical manufacturing processes where acyl chloride organic synthesis plays a pivotal role, driving innovation and efficiency.
Key Advantages
Versatile Reactivity
Myristoyl chloride's ability to efficiently acylate alcohols and amines makes it a cornerstone in complex organic synthesis and chemical manufacturing.
Broad Industry Application
From cosmetic formulations to advanced OLED materials and pharmaceutical intermediates, its utility spans numerous high-demand sectors.
Enhances Product Performance
Its integration into formulations leads to improved properties like solubility, bioavailability, and textural stability in end products.
Key Applications
Surfactant Production
Myristoyl chloride is used to create surfactants that lower surface tension, making it valuable in detergents and emulsifiers for the cosmetic and food industries.
Pharmaceutical Synthesis
This compound plays a crucial role in synthesizing various pharmaceuticals, particularly in the development of lipid-based drug delivery systems, enhancing drug solubility and bioavailability.
OLED Material Intermediate
Its use as an intermediate in the creation of OLED materials highlights its importance in the development of advanced electronic displays and lighting technologies.
Polymer Chemistry
Myristoyl chloride is employed in the modification of polymers, improving their properties such as hydrophobicity and thermal stability, which is essential in the manufacturing of high-performance materials.