Cis-11-Eicosenoic Acid: Your Key Ingredient for Enhanced Formulations
Discover the power of this monounsaturated fatty acid for superior detergents, cosmetics, and lubricants.
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Cis-11-Eicosenoic Acid
Cis-11-Eicosenoic Acid, also known as Gondoic Acid (CAS 5561-99-9), is a highly valuable omega-9 monounsaturated fatty acid. Its unique chemical structure makes it an exceptional ingredient for a variety of industrial and consumer products.
- Explore the diverse uses of Cis-11-Eicosenoic Acid in detergents, finding its role in powerful cleaning formulations.
- Leverage Gondoic Acid applications to elevate the performance and sensory experience of your cosmetic products.
- Incorporate this essential C20:1 (CIS-11) ACID into high grade lubricants for improved stability and friction reduction.
- Understand the chemical properties of C20H38O2, a key component for advanced product development.
Key Advantages
Versatile Application
The utility of Cis-11-Eicosenoic Acid spans multiple industries, making it a versatile fatty acid for detergents and a sought-after ingredient in cosmetic raw materials.
Enhanced Performance
Utilize Gondoic Acid applications to boost the efficacy of your formulations, particularly in the creation of premium cosmetics and high-grade lubricants.
Quality and Purity
With a guaranteed purity of C20:1 (CIS-11) ACID at a minimum of 80%, this monounsaturated fatty acid ensures consistent and reliable results in your manufacturing processes.
Key Applications
Detergents
Discover how Cis-11-Eicosenoic Acid enhances the cleaning power and stability of detergent formulations, contributing to effective household and industrial cleaning solutions.
Cosmetics
Incorporate Gondoic Acid into skincare, haircare, and other cosmetic products for its emollient and conditioning properties, improving the overall feel and performance of beauty products.
High-Grade Lubricants
Utilize the properties of this omega-9 fatty acid in advanced lubricant formulations to reduce friction, improve wear resistance, and enhance thermal stability.
Chemical Synthesis
Serve as a crucial building block for synthesizing more complex organic molecules due to its reactive double bond, supporting innovation in fine chemical manufacturing.