Production Method 1

2390-09-2

112-63-0

1731-88-0

1937-62-8

112-39-0

301-00-8

111-82-0

110-42-9

2734-47-6

1120-25-8

75190-82-8

124-10-7

112-62-9

2733-88-2

90176-52-6

112-61-8

Reaction Conditions

1.1 Catalysts: Water ;  4 h, 22 bar, 175 °C

Reference

In situ biodiesel production from wet Chlorella vulgaris under subcritical condition

Tsigie, Yeshitila Asteraye; Huynh, Lien Huong; Ismadji, Suryadi; Engida, Adam Mekonnen; Ju, Yi-Hsu, Chemical Engineering Journal (Amsterdam, 2012, 213, 104-108

Methyl cis-11-Eicosenoate Preparation Products

• Methyl linoleate (112-63-0)
• Methyl tridecanoate (1731-88-0)
• Methyl Elaidate Standard (1937-62-8)
• Methyl palmitate (112-39-0)
• Methyl Linolenate (301-00-8)
• Methyl laurate (111-82-0)
• Methyl decanoate (110-42-9)
• Eicosapentaenoic acid methyl ester (2734-47-6)
• METHYL PALMITOLEATE (1120-25-8)
• (10Z)-10-Heptadecenoic Acid Methyl Ester (75190-82-8)
• Methyl myristate (124-10-7)
• Methyl oleate (112-62-9)
• Methyl Nervonate (2733-88-2)
• Methyl cis-11-Eicosenoate (2390-09-2)
• 10-Pentadecenoic acid,methyl ester, (10Z)- (90176-52-6)
• Methyl stearate (112-61-8)

• 1. Quantification of FAMEs in biodiesel blends of various sources by gas chromatography tandem mass spectrometry
  Syed Ghulam Musharraf,Muhammad Arif Ahmed,Noureen Zehra Anal. Methods 2015 7 3372
• 2. Evaluation of methylations and external/internal standard quantification of lipids using gas chromatography-mass spectrometry
  Yang Qin,Wang Shunhe,Chen Haiqin,Gu Zhennan,Zhang Hao,Chen Wei,Chen Yong Q. Anal. Methods 2017 9 419
• 3. Expression of Arabidopsis thaliana S-ACP-DES3 in Escherichia coli for high-performance biodiesel production
  Barbara Scaglia,Elena Cassani,Roberto Pilu,Fabrizio Adani RSC Adv. 2014 4 63387
• 4. Characterization of the fate of lipids in wastewater treatment using a comprehensive GC×GC/qMS and statistical approach
  Mihail Simion Beldean-Galea,Jer?me Vial,Didier Thiébaut,Virginia Coman Anal. Methods 2013 5 2315
• 5. Triacylglycerol composition of British bluebell (Hyacinthoides non-scripta) seed oil
  Vera Thoss,Patrick J. Murphy,Ray Marriott,Thomas Wilson RSC Adv. 2012 2 5314

• Solvents and Organic Chemicals Organic Compounds Lipids and lipid-like molecules Fatty Acyls Fatty acid methyl esters
• Solvents and Organic Chemicals Organic Compounds Lipids and lipid-like molecules Fatty Acyls Fatty acid esters Fatty acid methyl esters
• Pesticide Chemicals Pesticide Active Ingredients Standard Substances
• Pharmaceutical and Biochemical Products Pharmaceutical Active Ingredients Standard Substances
• Solvents and Organic Chemicals Organic Compounds Acids/Esters

Comprehensive Guide to Methyl cis-11-Eicosenoate (CAS No. 2390-09-2): Properties, Applications, and Industry Insights

Methyl cis-11-Eicosenoate (CAS 2390-09-2), a fatty acid methyl ester, is gaining attention in industries ranging from cosmetics to biofuels. This compound, also known as methyl 11-eicosenoate, is derived from natural sources and exhibits unique chemical properties that make it valuable for specialized applications. With increasing consumer demand for sustainable and bio-based ingredients, Methyl cis-11-Eicosenoate has emerged as a promising candidate in green chemistry initiatives.

The molecular structure of Methyl cis-11-Eicosenoate features a 20-carbon chain with a cis double bond at the 11th position, esterified with a methyl group. This configuration contributes to its relatively low melting point and excellent solubility in organic solvents, making it ideal for formulations requiring precise viscosity control. Researchers have noted its compatibility with lipid-based delivery systems, a hot topic in pharmaceutical and nutraceutical development, where enhanced bioavailability of active compounds is critical.

In the personal care industry, Methyl cis-11-Eicosenoate is being explored as an emollient and texture enhancer. Formulators appreciate its ability to improve spreadability while maintaining moisturizing properties - a key requirement in clean beauty products, one of the fastest-growing market segments. Recent studies suggest potential synergies with ceramide analogs, aligning with consumer searches for "skin barrier repair ingredients" and "non-greasy moisturizers."

The compound's role in bio-lubricants represents another exciting application area. As industries seek alternatives to petroleum-derived lubricants, Methyl cis-11-Eicosenoate demonstrates excellent thermal stability and friction-reduction properties. This aligns with trending searches for "biodegradable industrial fluids" and "sustainable manufacturing solutions," particularly in European markets with stringent environmental regulations.

Analytical characterization of 2390-09-2 typically involves gas chromatography (GC) and mass spectrometry (MS) techniques. Quality control protocols emphasize purity verification, as even minor impurities can affect performance in sensitive applications. The compound's spectral data and chromatographic behavior are well-documented in scientific literature, supporting its adoption in standardized methods.

From a regulatory perspective, Methyl cis-11-Eicosenoate generally complies with major chemical inventories including TSCA and EINECS. Its low ecotoxicity profile makes it attractive for formulators addressing REACH compliance and responding to consumer demands for "environmentally friendly chemicals." However, specific applications may require additional certifications depending on end-use regulations.

Ongoing research explores novel production methods for Methyl cis-11-Eicosenoate, including enzymatic synthesis and microbial fermentation - topics frequently searched in relation to "green chemistry innovations." These approaches aim to improve yield while reducing energy consumption, addressing sustainability concerns throughout the supply chain. The compound's potential in specialty polymer applications is another emerging area of investigation.

Storage and handling recommendations for CAS 2390-09-2 emphasize protection from oxidation. Best practices include nitrogen blanketing and antioxidant additives when extended shelf life is required. These technical considerations are particularly relevant for buyers searching for "stable ester solutions" and "long-lasting formulation ingredients."

The market outlook for Methyl cis-11-Eicosenoate appears positive, with growth projections tied to expanding applications in bio-based materials. Industry analysts note increasing R&D investments from both chemical manufacturers and end-user companies, particularly in regions with strong bioeconomy initiatives. This aligns with search trends for "specialty esters market forecast" and "renewable raw material suppliers."

For researchers considering 2390-09-2 in new applications, recent patent literature reveals innovative uses in controlled release systems and phase change materials. These developments respond to industry needs for "smart material solutions" and "energy storage technologies," demonstrating the compound's versatility beyond traditional uses.

Quality specifications for commercial Methyl cis-11-Eicosenoate typically include parameters such as acid value, iodine value, and peroxide value. Suppliers catering to the high-purity chemicals market often provide detailed certificates of analysis, responding to buyer searches for "technical grade vs. pharmaceutical grade esters." Understanding these specifications is crucial for application success.

In conclusion, Methyl cis-11-Eicosenoate (CAS 2390-09-2) represents a versatile biochemical with growing importance across multiple industries. Its combination of favorable physical properties, sustainable credentials, and application flexibility positions it well to meet evolving market demands. As research continues to uncover new potential uses, this compound will likely play an increasingly significant role in the development of next-generation bio-based products and green technologies.

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