The intricate world of organic chemistry relies heavily on versatile building blocks that enable the creation of complex molecules. Among these, 1-(4-Hydroxypiperidin-1-yl)ethanone, known by its CAS number 4045-22-1, stands out as a compound of significant interest. Its unique structure, combining a piperidine ring with hydroxyl and acetyl functionalities, makes it a valuable intermediate for a multitude of applications, ranging from fine chemical synthesis to the development of specialized materials.

The synthesis of 1-(4-Hydroxypiperidin-1-yl)ethanone typically involves established organic reaction pathways. Researchers often employ multi-step processes, starting with readily available precursors and utilizing techniques like nucleophilic substitution and condensation. For instance, the reaction of 4-hydroxypiperidine with appropriate aminoacetone derivatives, often under carefully controlled acidic conditions, can yield the target compound. The optimization of these synthetic routes is crucial for ensuring high purity and yield, factors that are critical when the compound is intended for use as a pharmaceutical intermediate. The ability to purchase 1-(4-hydroxypiperidin-1-yl)ethanone from reliable suppliers ensures researchers have access to quality materials for their experimental needs. Manufacturers focused on high-quality chemical intermediates often detail their production processes to assure clients.

The chemical properties of 1-(4-Hydroxypiperidin-1-yl)ethanone, such as its melting point and solubility, dictate its handling and application. As a white powder, it presents standard laboratory handling requirements. Its solubility profile often favors polar solvents, facilitating its use in various reaction media. Understanding these physical characteristics is essential for designing efficient synthesis and purification protocols. For those looking to buy 1-(4-hydroxypiperidin-1-yl)ethanone, understanding these properties helps in selecting the right product for their specific research goals, ensuring compatibility with experimental setups and downstream processes.

The applications of CAS 4045-22-1 extend beyond basic organic synthesis. Its structure suggests potential roles in areas such as medicinal chemistry, where it can serve as a scaffold for developing pharmacologically active compounds. For example, derivatives have shown promise in exhibiting antibacterial activity, making this intermediate a valuable starting material for research into new antimicrobial agents. The competitive price and consistent availability of this compound from reputable suppliers are important considerations for research institutions and chemical companies planning their procurement strategies. The ease of sourcing this chemical intermediate directly impacts the pace and scope of scientific exploration.

In summary, 1-(4-Hydroxypiperidin-1-yl)ethanone is a pivotal compound in the realm of chemical research and industry. Its accessible synthesis, useful chemical properties, and diverse application potential, particularly as a pharmaceutical intermediate, make it a compound of enduring interest. As researchers continue to explore new molecular frontiers, the demand for high-quality intermediates like CAS 4045-22-1, sourced efficiently and affordably, will undoubtedly remain strong.