At NINGBO INNO PHARMCHEM CO.,LTD., we believe that a deep understanding of chemical synthesis is paramount to delivering superior products. Cis-13-Docosenoic Acid, commonly known as Erucic Acid (CAS 112-86-7), is a valuable long-chain fatty acid with a distinct cis configuration at the 13th carbon. The precise methods for Cis-13-Docosenoic acid synthesis are crucial for ensuring the high purity and specific properties required for its extensive erucic acid industrial uses.

Erucic Acid is typically derived from natural sources, primarily from the seeds of certain plants, such as rapeseed and mustard. The extraction and subsequent refinement processes are critical to obtaining the high purity erucic acid powder that is sought after in specialized chemical applications. These processes often involve fractional distillation and crystallization techniques to isolate Erucic Acid from other fatty acids present in the raw material.

The molecular structure of Erucic Acid, with its double bond in the cis configuration, imparts unique physical and chemical characteristics. These properties make it an excellent precursor for a wide range of derivatives, including those used in the preparation of surfactants from erucic acid, lubricants, plasticizers, and emulsifiers. Each application relies on the consistent quality and specific isomeric purity that well-controlled synthesis provides.

Understanding the Cis-13-Docosenoic acid synthesis also allows for advancements in creating novel compounds with tailored functionalities. For instance, hydrogenation of Erucic Acid leads to Behenic Acid (Docosanoic Acid), which has its own set of industrial applications. This highlights the foundational role of Erucic Acid as a versatile intermediate in organic chemistry.

NINGBO INNO PHARMCHEM CO.,LTD. is dedicated to mastering the synthesis and supply of high-quality Erucic Acid. Our commitment to scientific rigor and quality assurance ensures that our clients receive a chemical intermediate that meets the highest standards, enabling innovation across diverse industrial sectors. We continuously explore advancements in synthesis to better serve the evolving needs of the market.