The world of chemistry thrives on understanding the fundamental properties and reactivity of its constituent molecules. N-(3-Aminopropyl)-imidazole, designated by CAS number 5036-48-6, is a fascinating organic compound whose molecular structure dictates its broad utility. Possessing both an imidazole ring and a primary amine functional group, it offers a rich landscape for chemical exploration and application. For chemists and material scientists, a deep dive into its characteristics and synthesis is key to leveraging its full potential. Many manufacturers provide this compound, but understanding its chemistry enhances the purchasing decision.

From a chemical properties perspective, N-(3-Aminopropyl)-imidazole is characterized as a clear, colorless liquid. Its molecular formula, C6H11N3, and molecular weight of 125.17 g/mol are standard identifiers. Key physical properties include a melting point of -68 °C and a boiling point of 296 °C, indicating it remains a liquid under typical laboratory conditions. Its miscibility with water further adds to its ease of use in various reactions and formulations. The pKa value of approximately 9.08 (predicted) hints at its basic nature, primarily due to the amine group.

The synthesis of N-(3-Aminopropyl)-imidazole typically involves reactions utilizing readily available precursors. Common routes might include the reaction of imidazole with acrylonitrile followed by reduction, or other multi-step processes starting from basic amines and imidazole derivatives. Manufacturers producing this chemical often optimize these routes to ensure high yield and purity, which is critical for its downstream applications. When researchers decide to buy N-(3-Aminopropyl)-imidazole, they are essentially purchasing the result of these carefully controlled synthetic processes.

Understanding these chemical insights is not just academic; it directly impacts how and where N-(3-Aminopropyl)-imidazole can be effectively used. For example, its reactivity makes it a prime candidate for creating more complex molecules through condensation, alkylation, or ring-forming reactions. This makes it a valuable intermediate for companies that specialize in custom synthesis or the production of fine chemicals. Identifying a supplier that provides detailed technical data and support can greatly assist in this regard.

In conclusion, N-(3-Aminopropyl)-imidazole (CAS 5036-48-6) is more than just a chemical formula; it's a molecule with inherent versatility stemming from its structure and properties. Whether used as a reagent, a building block, or an intermediate, its role in organic synthesis is significant. For those looking to purchase this compound, understanding its chemistry empowers informed decisions, ensuring the selection of a quality product from a reliable manufacturer for optimal research and industrial outcomes.