1-Octen-3-ol, also identified by its CAS number 3391-86-4, is a fascinating molecule with a distinctive chemical profile that dictates its wide range of applications. As a C8 unsaturated alcohol, its structure imparts unique characteristics crucial for the flavor, fragrance, and agricultural sectors. Understanding these chemical properties and synthesis routes is essential for any buyer or formulator working with this compound.

The chemical formula for 1-octen-3-ol is C8H16O, with a molecular weight of approximately 128.21 g/mol. It features a double bond between carbon 1 and 2, and a hydroxyl group attached to carbon 3, classifying it as an allylic alcohol. This structural arrangement is responsible for its potent aroma, described as earthy, mushroom-like, and green. Its physical properties include a boiling point of around 84-85°C at 25 mmHg and a density of approximately 0.837 g/cm³. It is typically a colorless to pale yellow liquid.

The synthesis of 1-octen-3-ol can be approached through several chemical and biotechnological pathways. Traditional chemical synthesis often involves Grignard reactions, where reagents like vinyl magnesium bromide are reacted with hexanal, or reduction of 1-octen-3-one. Biotechnological methods leverage enzymes found in fungi, such as lipoxygenases and hydroperoxide lyases, to convert fatty acids like linoleic acid into enantiomerically pure forms of 1-octen-3-ol. These methods are crucial for obtaining specific enantiomers desired for certain high-value applications.

For industrial procurement, knowing the synthesis route can be important for understanding potential impurities and the overall cost-effectiveness of production. As a manufacturer in China, we utilize optimized synthesis processes to ensure the high purity and quality of our 1-octen-3-ol. This focus on chemical integrity ensures that our product performs reliably in flavor compositions, fragrance blends, and other industrial uses.

The chemical properties of 1-octen-3-ol also contribute to its efficacy as an insect attractant, particularly for mosquitoes, due to its presence in mammalian breath and sweat. This semiochemical function is well-documented and utilized in pest management strategies. For formulators and researchers, understanding these specific chemical traits is key to leveraging the full potential of this versatile molecule.

If your business requires high-quality 1-octen-3-ol, consider partnering with a reputable supplier. We offer detailed technical data and are ready to provide quotes and samples, allowing you to thoroughly evaluate our product for your flavor, fragrance, or agricultural needs. Our commitment to quality and efficient manufacturing ensures a dependable source for this valuable chemical.