N,N'-Dipropylurea, identified by CAS number 623-95-0, is a fundamental organic compound that serves as a versatile building block in modern chemistry. Its unique structure, featuring two propyl groups attached to the urea nitrogen atoms, makes it an ideal precursor for a range of specialized chemical syntheses, particularly within the pharmaceutical industry for creating antitumor agents.

Synthesis Pathways and Chemical Properties

The synthesis of N,N'-Dipropylurea typically involves reactions that form the urea linkage between dipropylamine and a carbonyl source, or variations thereof. Its chemical formula, C7H16N2O, and its classification as a fine chemical underscore its importance in multi-step organic synthesis. Understanding its reactivity and stability is crucial for chemists aiming to optimize synthetic routes. As a supplier, we ensure that our product meets the high purity standards required for these demanding applications.

Applications Beyond Pharmaceuticals

While its role in developing antitumor drugs is significant, N,N'-Dipropylurea also finds utility in broader organic synthesis research. It can be employed in the creation of various substituted ureas, which may have applications in polymer chemistry, agrochemicals, or materials science. Researchers looking to buy N,N'-dipropylurea often seek its specific structural attributes for novel compound development.

Sourcing for Research and Development

For academic institutions and R&D departments, securing a reliable source of N,N'-Dipropylurea is essential. Identifying a reputable N,N'-dipropylurea manufacturer China can provide access to high-quality material at a reasonable CAS 623-95-0 price. NINGBO INNO PHARMCHEM CO.,LTD. is committed to supporting the scientific community by supplying this vital intermediate with consistent quality and dependable service. We are a leading pharmaceutical intermediate supplier that understands the needs of chemical researchers.

By leveraging the expertise of reliable chemical suppliers, researchers can accelerate their projects and explore the full potential of compounds like N,N'-Dipropylurea in advancing scientific frontiers.