The landscape of chemical synthesis is continually evolving, driven by the need for more efficient routes to complex molecules. Among the myriad of chemical building blocks available, heterocyclic compounds like 3-bromo-5-methylisoxazole (CAS 25741-97-3) play a pivotal role. For research scientists and process chemists, understanding the utility and sourcing of such intermediates is paramount to successful project outcomes.

Understanding 3-Bromo-5-methylisoxazole

3-Bromo-5-methylisoxazole is a brominated derivative of isoxazole, a five-membered heterocyclic ring containing one oxygen and one nitrogen atom. Its chemical formula is C4H4BrNO, and it possesses a molecular weight of approximately 161.98 g/mol. The presence of a bromine atom at the 3-position renders it highly reactive in various synthetic transformations, such as nucleophilic substitutions and palladium-catalyzed cross-coupling reactions. The methyl group at the 5-position adds to its structural definition and can influence electronic properties. Typically supplied with a purity of 97%+, this compound is well-suited for applications demanding high specificity and minimal impurities.

Synthetic Utility and Applications

The primary value of 3-bromo-5-methylisoxazole lies in its broad applicability as a synthetic intermediate. Its key applications include:

  • Pharmaceutical Intermediates: It is a crucial precursor in the synthesis of numerous Active Pharmaceutical Ingredients (APIs). Its heterocyclic core can be readily incorporated into drug structures targeting various diseases.
  • Agrochemicals: The compound is employed in the development of novel pesticides, herbicides, and fungicides, contributing to enhanced crop protection and food security.
  • Fine Chemical Synthesis: It serves as a versatile building block for creating a wide range of complex organic molecules used in diverse industrial sectors, including materials science and specialty chemicals.

Sourcing and Procurement Considerations

When the need arises to buy 3-bromo-5-methylisoxazole (CAS 25741-97-3), a strategic approach to sourcing is essential. Procurement managers and research chemists should consider the following:

  • Reliable Manufacturers: Identifying reputable manufacturers, particularly those with established operations in regions like China known for their chemical production capabilities, is key. These suppliers often offer consistent quality and competitive pricing.
  • Purity Assurance: Always confirm the purity specifications. For critical applications, a purity of 97%+ is often mandatory. Requesting a Certificate of Analysis (CoA) is a standard practice.
  • Quantity and Pricing: Compare quotes for your required quantity. Bulk purchases can lead to significant cost reductions, making it more feasible for larger-scale manufacturing.
  • Technical Support: Engaging with suppliers who can offer technical support or provide detailed product information can be invaluable for optimizing synthesis routes.

In conclusion, 3-bromo-5-methylisoxazole (CAS 25741-97-3) is a cornerstone intermediate in modern chemical synthesis. Its versatile reactivity and applications in pharmaceuticals and agrochemicals underscore its importance. By partnering with reliable suppliers, researchers and manufacturers can ensure a consistent supply of this critical compound, driving forward innovation in chemistry and related industries.