(R)-Pyrrolidin-3-ylmethanol, identified by CAS number 110013-18-8, is a valuable chemical compound utilized across various scientific and industrial applications, most notably as a pharmaceutical intermediate and in diagnostic reagent development. A thorough understanding of its chemical properties is crucial for effective handling, storage, and application in synthesis and formulation processes. For professionals looking to buy this compound, knowing these details can significantly streamline their procurement and research efforts.

The typical appearance of (R)-Pyrrolidin-3-ylmethanol is a white powder, a form that is convenient for weighing and integration into reaction mixtures. Its molecular formula, C5H11NO, and molecular weight of approximately 101.15 g/mol are fundamental identifiers. Key physical properties that impact its use include its boiling point, reported around 176 °C at atmospheric pressure, and its solubility. While it is slightly soluble in water, its compatibility with various organic solvents will dictate its utility in different synthetic routes. Information regarding its pKa value, such as the predicted 14.93±0.10, can also be relevant for specific chemical reactions or buffer preparations.

For researchers and procurement managers, sourcing this chemical from a reliable manufacturer is essential. When considering a purchase, it is advisable to obtain a detailed Certificate of Analysis (CoA) that confirms the purity, enantiomeric excess, and other critical parameters. Suppliers often provide this information to assure customers of the material's quality. For those looking to buy (R)-Pyrrolidin-3-ylmethanol, comparing specifications from different manufacturers in China can help secure the best value and quality for their specific needs.

Understanding these properties allows chemists to better plan their synthetic strategies, optimize reaction conditions, and predict the behavior of the molecule in various chemical environments. This detailed knowledge ensures that (R)-Pyrrolidin-3-ylmethanol effectively serves its purpose as a building block in the development of advanced materials and life-saving pharmaceuticals.