The landscape of chemical synthesis is constantly evolving, with new compounds and methodologies emerging regularly. At the heart of this progress are versatile chemical intermediates, such as 4-(oxolan-2-yloxy)butan-1-ol, identified by its CAS number 64001-06-5. This compound, with its specific chemical structure and properties, offers significant utility for researchers and manufacturers in the pharmaceutical and fine chemical sectors. Understanding its applications is key to leveraging its full potential.

4-(Oxolan-2-yloxy)butan-1-ol, possessing a molecular formula of C8H16O3 and a molecular weight of approximately 160.21, is primarily recognized for its role as a pharmaceutical intermediate. Its functional groups allow it to participate in a variety of organic reactions, making it a valuable building block for synthesizing complex molecules. Pharmaceutical companies often utilize such intermediates to construct the core structures of potential new drugs, contributing to the discovery and development pipeline. Researchers frequently seek to buy this compound to explore novel therapeutic targets or to optimize existing synthetic routes.

Beyond its direct application in synthesis, 4-(oxolan-2-yloxy)butan-1-ol has also been identified in chemical literature as an impurity or byproduct. For instance, its mention in relation to Poly(butylene terephthalate) production indicates its relevance in analytical chemistry and quality control. In this context, it can serve as a reference standard for identifying and quantifying impurities in industrial processes, ensuring product purity and consistency.

For those looking to purchase this intermediate, a reliable supply chain is essential. Manufacturers in China are a primary source, offering products with a purity typically around 97%+. When sourcing, it's advisable to partner with established suppliers who can provide comprehensive technical documentation and consistent product quality. Factors like competitive pricing, availability in various quantities (from grams to kilograms), and responsive customer service should guide your selection of a supplier.

In essence, 4-(oxolan-2-yloxy)butan-1-ol is more than just a chemical compound; it's a key enabler of progress in chemical synthesis and pharmaceutical innovation. Whether used as a direct building block or as an analytical standard, its importance is undeniable. For procurement specialists and R&D scientists, understanding its applications and sourcing it efficiently from reputable manufacturers is a cornerstone of successful chemical operations.