In the vast field of chemical science, certain molecules emerge as foundational elements, enabling a wide array of research and development activities. 1-(4-Hydroxypiperidin-1-yl)ethanone, identified by its CAS number 4045-22-1, is one such compound, recognized for its versatility as a chemical intermediate. Its unique molecular architecture, featuring a hydroxyl-substituted piperidine ring linked to an ethanone moiety, provides a rich platform for chemical modification and exploration, making it a valuable asset in laboratories worldwide.

The significance of 1-(4-Hydroxypiperidin-1-yl)ethanone is deeply rooted in its role as a precursor and building block in organic synthesis. Scientists utilize this compound to construct more complex molecules, which may possess novel biological activities or material properties. The piperidine ring system, a common motif in many pharmaceuticals, coupled with the reactive carbonyl group of the ethanone, allows for a broad range of chemical transformations. This versatility is crucial for researchers aiming to synthesize libraries of compounds for screening in drug discovery programs or for developing new functional materials. The availability of this compound from reputable chemical suppliers, such as NINGBO INNO PHARMCHEM CO.,LTD., at competitive prices, facilitates its widespread use in research projects.

Furthermore, research has highlighted the potential of derivatives synthesized from 1-(4-Hydroxypiperidin-1-yl)ethanone in areas such as medicinal chemistry, particularly in the context of antibacterial research. Studies investigating the structure-activity relationships of these derivatives have shown promising results, suggesting their potential as new agents to combat bacterial infections. This aspect underscores the compound's importance not just as a synthetic tool but also as a source of inspiration for therapeutic innovation. The ability to procure specific chemical compounds like 1-(4-hydroxypiperidin-1-yl)ethanone at an affordable price is essential for advancing such research.

The broader implications of CAS 4045-22-1 in research and development are substantial. Its utility spans across various disciplines, from fundamental organic chemistry to applied pharmaceutical sciences. The compound's reliable performance in synthetic reactions and its contribution to the creation of molecules with potential biological activities make it a cornerstone for innovation. Researchers involved in developing new chemical entities or optimizing synthesis processes often rely on the consistent quality and availability of such key intermediates. Understanding the market for these chemicals, including where to find suppliers and the prevailing price points, is a strategic advantage for any research team.

In conclusion, 1-(4-Hydroxypiperidin-1-yl)ethanone (CAS 4045-22-1) represents a pivotal compound in the scientific community. Its synthetic accessibility, chemical versatility, and potential applications, especially in the development of antibacterial agents and other pharmaceuticals, underscore its value. As research continues to push the boundaries of chemical and biological understanding, this intermediate will undoubtedly remain a vital component in the toolkit of innovative scientists and manufacturers.