Organic synthesis is the backbone of chemical innovation, enabling the creation of complex molecules essential for pharmaceuticals, materials science, and beyond. At the heart of many synthetic pathways lie versatile chemical intermediates, and 6-(3-Chloropropylamino)-1,3-dimethyluracil (CAS: 34654-81-4) is a prime example of such a valuable compound. Its unique structural features make it a sought-after building block for a wide array of chemical transformations.

Understanding the Chemical Versatility
6-(3-Chloropropylamino)-1,3-dimethyluracil, with its molecular formula C9H14ClN3O2, possesses a pyrimidinedione core functionalized with a chloroalkyl chain. This chloroalkyl group is particularly reactive and serves as an excellent handle for various nucleophilic substitution reactions. This allows chemists to introduce diverse functionalities or extend the carbon chain, making it adaptable for synthesizing complex heterocyclic structures or appending specific side chains. Its known role as an impurity in Urapidil synthesis also highlights its relevance in pharmaceutical research and development.

Applications in Diverse Synthetic Pathways
The versatility of this intermediate lends itself to numerous applications in organic chemistry:

  • Nucleophilic Substitution Reactions: The terminal chlorine atom can be readily replaced by various nucleophiles (e.g., amines, alcohols, thiols), facilitating the construction of new bonds and more complex molecular architectures.
  • Building Block for Heterocycles: Its inherent heterocyclic nature makes it a valuable starting material for the synthesis of related heterocyclic systems, which are prevalent in many biologically active compounds.
  • Pharmaceutical R&D: Beyond its role as a Urapidil impurity, it can serve as a precursor for synthesizing novel drug candidates with potential therapeutic properties, offering a reliable starting point for medicinal chemists.
  • Material Science: Functionalized pyrimidine derivatives can also find applications in advanced materials, although its primary use remains in fine chemical and pharmaceutical synthesis.

Sourcing High-Quality Intermediates
For chemists and researchers aiming to leverage the synthetic potential of 6-(3-Chloropropylamino)-1,3-dimethyluracil, sourcing from a reputable manufacturer is crucial. A leading supplier in China can provide this intermediate with high purity (typically >97%), confirmed by rigorous analytical testing like NMR and HPLC. When you buy this compound, you ensure the reliability and reproducibility of your synthetic steps. We offer competitive pricing and consistent quality, making us an ideal partner for your organic synthesis needs. Reach out to us to purchase this essential building block and accelerate your research.