In the intricate world of advanced chemical synthesis, the selection of precise intermediates is critical for achieving desired molecular targets. Methyl 5-allyl-3-methoxysalicylate (CAS 85614-43-3) stands as a prominent example of such a compound, valued for its unique structural features and its crucial role as a building block in various synthetic methodologies.

Primarily, Methyl 5-allyl-3-methoxysalicylate finds significant application as an intermediate in the pharmaceutical industry. It is recognized for its use in the synthesis of Fallypride and serves as a precursor for vital molecular architectures such as enterobactin scaffolds and allylic amines. These applications highlight its importance in the development of novel therapeutics and specialized chemical compounds.

The demand for high-quality Methyl 5-allyl-3-methoxysalicylate necessitates a clear understanding of its specifications. Typically, it is supplied as a white to pale yellow crystalline powder with a purity of 98% or higher. This level of purity is essential for ensuring the fidelity of downstream reactions and the quality of the final synthesized products. The consistent physical characteristics, like its melting point (54-58 °C), also aid in quality verification.

For laboratories and chemical manufacturing facilities, obtaining Methyl 5-allyl-3-methoxysalicylate from reliable sources is paramount. This involves partnering with manufacturers and suppliers who can guarantee product consistency, adherence to safety standards, and efficient delivery. When looking to purchase this compound, prospective buyers should research suppliers to ensure they meet these rigorous requirements, and compare the methyl 5-allyl-3-methoxysalicylate price to secure the best value.

The intrinsic chemical properties of Methyl 5-allyl-3-methoxysalicylate, including its molecular formula (C12H14O4) and molecular weight (222.24 g/mol), are fundamental for synthetic chemists. The presence of reactive functional groups, such as the allyl and ester moieties, allows for a broad spectrum of chemical transformations, making it a highly adaptable intermediate for constructing complex molecules used in research and industrial applications.

In conclusion, Methyl 5-allyl-3-methoxysalicylate is a cornerstone in advanced chemical synthesis. Its utility as a methyl 5-allyl-3-methoxysalicylate intermediate in the creation of pharmaceuticals and fine chemicals emphasizes its significance. Ensuring access to a dependable supply of this essential building block is a key factor for success in modern synthetic chemistry.