Cholesteryl Oleyl Carbonate: A Key Component for Advanced Materials
Discover the versatile applications of Cholesteryl Oleyl Carbonate in liquid crystal technology and biomaterials.
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Cholesteryl Oleyl Carbonate
Cholesteryl oleyl carbonate, identified by CAS 17110-51-9, is a significant chemical compound functioning primarily as a liquid crystal (LC) molecule. Its unique structure, a carbonate ester derived from cholesterol and oleyl alcohol, lends itself to specialized applications across various industries.
- Explore the unique properties of Cholesteryl Oleyl Carbonate CAS 17110-51-9 for your advanced material needs.
- Leverage Cholesteryl Oleyl Carbonate applications in cutting-edge liquid crystal technologies.
- Discover the potential of Cholesteryl Oleyl Carbonate as a biomaterial for improving hemocompatibility.
- Inquire about sourcing high-purity Cholesteryl Oleyl Carbonate for your research and development projects.
Advantages Offered
Versatile Liquid Crystal Properties
The inherent liquid crystal properties of Cholesteryl Oleyl Carbonate make it valuable for applications requiring specific optical and electronic behaviors, contributing to advancements in display technologies and sensors.
Biocompatibility Enhancement
As a biomaterial, it enhances hemocompatibility and reduces thrombogenicity when incorporated into matrices, crucial for the development of medical devices and implants.
Component in Novel Devices
Its role in the self-assembly process with quantum dots enables the fabrication of multifunctional switchable devices, pushing the boundaries of material science and technology.
Key Applications
Liquid Crystal Technologies
Cholesteryl oleyl carbonate CAS 17110-51-9 is a key compound in the development and application of liquid crystal displays and other optical devices, offering precise control over light manipulation.
Biomedical Applications
Its use as a biomaterial in improving hemocompatibility makes it essential for medical implants and devices, minimizing adverse reactions within the body.
Advanced Electronic Materials
This compound serves as a component in creating advanced electronic materials, particularly in the development of multifunctional switchable devices by combining with quantum dots.
Specialty Chemical Synthesis
It functions as a valuable intermediate in specialty chemical synthesis, providing building blocks for complex organic molecules used in various high-tech fields.
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