In the realm of organic chemistry, intermediate compounds play a pivotal role in building complex molecules. Idrocilamide, identified by its CAS number 6961-46-2, is one such compound that offers significant potential as a versatile building block. Its unique chemical structure makes it a valuable asset for researchers and chemists engaged in the synthesis of various advanced materials and active pharmaceutical ingredients (APIs). This article explores the utility of Idrocilamide in chemical synthesis and how to best acquire it from reliable sources.

Idrocilamide, with the chemical name N-(2-Hydroxyethyl)-3-phenyl-2-propenamide, is typically supplied as a white to off-white solid. Its molecular formula, C11H13NO2, and molecular weight of 191.23 g/mol are key identifiers for chemists. The presence of the amide functional group, coupled with the phenyl and propenamide moieties, provides multiple sites for chemical modification and functionalization. This structural versatility allows chemists to incorporate Idrocilamide into a wide range of synthetic strategies, transforming it into more complex target molecules.

When considering the purchase of Idrocilamide for synthetic purposes, purity is a critical factor. High-purity Idrocilamide ensures predictable reaction outcomes and minimizes the generation of unwanted byproducts. Therefore, it is essential to source this compound from reputable manufacturers and suppliers who can guarantee stringent quality control. Many leading suppliers, particularly those operating within China's robust chemical manufacturing sector, offer Idrocilamide with purities exceeding 98%. These suppliers are often equipped to provide detailed analytical data, including NMR and HPLC, to verify product quality.

The applications of Idrocilamide in chemical synthesis are diverse. It can serve as a precursor for novel drug candidates, specialized polymers, or advanced materials. For instance, the hydroxyethyl group can undergo esterification or etherification, while the amide linkage can be modified under specific conditions. Furthermore, the double bond in the propenamide chain offers opportunities for addition reactions, such as hydrogenation or epoxidation. For businesses looking to buy Idrocilamide, understanding these potential reaction pathways can help in identifying new applications and optimizing synthetic routes.

Procuring Idrocilamide, whether for small-scale R&D or larger production runs, requires careful selection of a supplier. A trusted manufacturer or supplier will not only offer competitive pricing but also ensure timely delivery and consistent product quality. Investigating supplier credentials, requesting samples for preliminary testing, and establishing clear communication channels are all vital steps in the purchasing process. By leveraging the expertise of dedicated chemical suppliers, researchers and manufacturers can confidently integrate Idrocilamide into their innovative synthesis projects.