The chemical manufacturing industry thrives on the efficient production and utilization of key intermediates, compounds that serve as essential building blocks for a vast array of products. 1-(4-Hydroxypiperidin-1-yl)ethanone, identified by its CAS number 4045-22-1, is one such critical intermediate. Its unique structural features and reactivity make it indispensable in the synthesis of numerous fine chemicals, pharmaceutical agents, and specialized materials, underpinning significant advancements across various industrial sectors.

Manufacturing processes for 1-(4-Hydroxypiperidin-1-yl)ethanone are often meticulously optimized to ensure high purity and cost-effectiveness. Typical synthetic routes involve multi-step reactions that start from readily available precursor chemicals. These processes commonly utilize the nucleophilic properties of piperidine derivatives and the reactivity of carbonyl compounds. For example, reacting 4-hydroxypiperidine with aminoacetone or its derivatives under specific reaction conditions, such as controlled temperature and the presence of appropriate catalysts or acids, is a well-established method. The efficiency of these manufacturing processes is critical for providing a stable supply of this vital intermediate to the market. Companies specializing in chemical production focus on streamlining these methods to maintain competitive pricing for products like 1-(4-hydroxypiperidin-1-yl)ethanone.

The industrial significance of CAS 4045-22-1 is further amplified by its application in pharmaceutical synthesis. As a key pharmaceutical intermediate, it forms the backbone for constructing complex drug molecules. The hydroxyl group and the piperidine ring provide sites for modifications that are crucial for tailoring the pharmacological properties of the final drug products. This role makes the consistent quality and reliable supply of 1-(4-Hydroxypiperidin-1-yl)ethanone paramount for drug manufacturers. Ensuring the availability of this compound from trusted suppliers, often with transparent pricing structures, is a strategic priority for companies engaged in pharmaceutical research and production. The ability to purchase this intermediate in bulk, at a reasonable price, directly impacts the viability of large-scale drug manufacturing projects.

Beyond pharmaceuticals, 1-(4-Hydroxypiperidin-1-yl)ethanone finds utility in the synthesis of specialty chemicals and advanced materials. Its chemical structure allows for its incorporation into polymers, catalysts, or other functional molecules, contributing to innovation in materials science and industrial chemistry. The demand for high-purity chemical intermediates like 4045-22-1 supports a specialized segment of the chemical manufacturing industry. The continuous improvement of manufacturing techniques and the focus on quality control ensure that this intermediate meets the stringent requirements of its diverse industrial applications. For any chemical manufacturing operation, securing a reliable source for essential intermediates is a fundamental aspect of operational success.

In conclusion, 1-(4-Hydroxypiperidin-1-yl)ethanone (CAS 4045-22-1) is a cornerstone intermediate in the modern chemical industry. Its manufacturing, driven by optimized synthesis routes and a focus on quality, ensures its broad applicability across pharmaceuticals, specialty chemicals, and materials science. The consistent demand for this versatile compound highlights its enduring importance in driving industrial innovation and product development.