Organic synthesis is the backbone of many industries, from pharmaceuticals to materials science. At its core lies the skillful manipulation of chemical building blocks, and 3-Buten-1-ol, also known by its common name Allylcarbinol, is a prime example of such a versatile molecule. Its CAS number, 627-27-0, identifies a compound that is invaluable to chemists seeking to construct intricate organic structures. Possessing both a terminal olefin and a primary alcohol, Allylcarbinol offers a unique combination of reactivity that opens doors to a vast array of synthetic possibilities.

The utility of Allylcarbinol in organic synthesis stems from its bifunctional nature. The carbon-carbon double bond is susceptible to electrophilic addition, radical additions, and various catalytic transformations like hydroboration-oxidation to form diols or oxidation to carboxylic acids. Simultaneously, the primary alcohol group can be readily converted into ethers, esters, halides, or oxidized to aldehydes and carboxylic acids. This dual reactivity allows chemists to selectively functionalize either end of the molecule or utilize both functionalities in tandem to create complex ring systems or extended carbon chains.

For researchers and development teams, obtaining reliable access to high-quality Allylcarbinol is essential. As a dedicated supplier of fine chemicals, NINGBO INNO PHARMCHEM CO.,LTD. provides a consistent source of pure 3-Buten-1-ol, meeting the demands of rigorous synthetic protocols. When you plan to buy this critical reagent, consider the benefits of working with an established manufacturer who understands your needs. Our commitment to quality assurance and competitive pricing ensures that your research and development budgets are optimized. We actively encourage you to request a quote to explore how our superior product can enhance your synthetic endeavors.

The applications of Allylcarbinol extend beyond basic organic transformations. It serves as a key intermediate in the synthesis of polymers, specialty additives, fragrances, and crucially, in the development of agrochemicals and fine chemicals used in advanced material applications. By leveraging the inherent reactivity of Allylcarbinol, chemists can design and execute novel synthetic routes, pushing the boundaries of molecular innovation. Partnering with a trusted manufacturer like us guarantees you receive the quality and quantity needed to bring your innovative projects to fruition.