For professionals engaged in chemical synthesis, the choice of starting materials and intermediates significantly impacts project success. N-(3-Aminopropyl)diethanolamine, identified by its CAS number 4985-85-7, is a versatile compound that has garnered attention for its utility in various organic reactions. Understanding its chemical characteristics is the first step for any research scientist or formulator looking to buy this substance.

N-(3-Aminopropyl)diethanolamine is characterized by its molecular formula C7H18N2O2 and a molecular weight of 162.23. Its IUPAC name is 2-[3-Aminopropyl(2-hydroxyethyl)amino]ethanol. This structure features a primary amine group at one end and two hydroxyl groups on the ethanolamine moiety, linked by a propyl chain. This combination of functional groups makes it highly reactive and suitable for a wide range of chemical transformations. Typically supplied as a yellow liquid, its handling and storage require adherence to standard laboratory practices for organic chemicals.

The primary use of N-(3-Aminopropyl)diethanolamine in chemical synthesis lies in its role as a nucleophile and a building block. It can participate in reactions such as alkylation, acylation, and condensation. Researchers often buy this compound for creating more complex molecules, including pharmaceutical intermediates, catalysts, and specialty monomers. The reliability of the N-(3-Aminopropyl)diethanolamine manufacturer is critical here, as impurities can significantly affect reaction yields and product purity.

When sourcing N-(3-Aminopropyl)diethanolamine, it is essential to look for suppliers who can provide detailed specifications, including purity levels (often specified by GC analysis) and lot-specific certificates of analysis (COA). As a leading supplier in China, we pride ourselves on offering transparent documentation and consistent product quality, ensuring that your R&D and production processes proceed smoothly. For those seeking to purchase this chemical, understanding its precise molecular structure and reactivity is key to optimizing its application.

Investigating the N-(3-Aminopropyl)diethanolamine chemical intermediate applications further reveals its importance in fields like polymer chemistry and as a component in various functional materials. By partnering with a dedicated manufacturer, you can ensure a consistent supply of this valuable chemical, allowing you to focus on innovation and development rather than material procurement challenges.