In the realm of advanced chemical synthesis, intermediates play a pivotal role, acting as crucial bridges in the construction of complex molecules. 4-(Oxolan-2-yloxy)butan-1-ol, identified by its CAS number 64001-06-5, stands out as a particularly versatile compound for chemists and researchers. Its unique structure and reactivity make it a valuable asset for various applications, from pharmaceutical research to material science. Understanding how to buy and utilize such intermediates effectively is key for innovation.

The chemical profile of 4-(oxolan-2-yloxy)butan-1-ol (MF: C8H16O3, MW: 160.21) suggests a functional ether and alcohol group, enabling a range of chemical transformations. With a typical purity exceeding 97%, it offers the reliability required for sensitive synthetic procedures. Its physical properties, such as a predicted density of 1.04±0.1 g/cm³ and a boiling point of 260.0±35.0 °C, are important considerations for process chemists when designing reaction conditions or purification strategies. These details are vital for anyone looking to purchase this compound for industrial or research purposes.

The applications of 4-(oxolan-2-yloxy)butan-1-ol are multifaceted. Primarily recognized as a pharmaceutical intermediate, it serves as a foundational element in the synthesis of various therapeutic agents. Its role in organic synthesis extends to academic research, where it can be employed in the development of novel compounds or methodologies. Furthermore, its presence as a noted impurity in certain industrial processes underscores its significance in analytical chemistry and quality assurance, providing a benchmark for monitoring chemical reactions and product purity.

For procurement managers and research scientists, sourcing this intermediate efficiently is a priority. Partnering with a reliable chemical manufacturer based in China offers several advantages, including competitive pricing and consistent product availability. When making a purchase, prioritize suppliers who can provide comprehensive technical data, flexible packaging options (e.g., 5g to 25kg), and responsive customer service. Obtaining a free sample is often a critical step to validate the quality and suitability of the product for specific synthesis needs.

The continuous advancement in chemical synthesis necessitates a steady supply of high-quality intermediates. 4-(Oxolan-2-yloxy)butan-1-ol represents such an essential component, empowering chemists to push the boundaries of molecular design and discovery. By understanding its chemical characteristics and leveraging the resources of reputable manufacturers, researchers can ensure the success of their synthetic endeavors.