In the realm of organic synthesis, certain molecules stand out for their inherent versatility and capacity to serve as foundational building blocks for a wide array of complex compounds. [2-(Methylamino)pyridin-3-yl]methanol, identified by its CAS number 32399-12-5, is one such compound. Its chemical structure, characterized by a pyridine ring adorned with both a methylamino group and a hydroxymethyl group, offers a rich landscape for chemical transformations, making it a valuable asset for chemists in various disciplines.

While its most well-known application lies in the pharmaceutical sector as a key intermediate for Isavuconazole, its utility extends significantly into broader organic synthesis. The pyridine nucleus itself is a prevalent scaffold in many biologically active molecules and functional materials. The presence of the secondary amine (-NHCH₃) and the primary alcohol (-CH₂OH) functionalities provides multiple reaction sites. The methylamino group can undergo typical amine reactions, such as acylation, alkylation, and participation in condensation reactions. The hydroxymethyl group can be oxidized to an aldehyde or carboxylic acid, esterified, or etherified, opening up numerous synthetic pathways.

For synthetic chemists engaged in drug discovery, [2-(Methylamino)pyridin-3-yl]methanol serves as an excellent starting point for creating libraries of novel pyridine derivatives. These derivatives can then be screened for various biological activities, potentially leading to new therapeutic agents. The ability to systematically modify the molecule allows for fine-tuning of pharmacological properties, such as binding affinity, solubility, and metabolic stability.

Beyond medicinal chemistry, the compound's reactivity makes it relevant in materials science. The alcohol functionality can be used to incorporate the pyridine moiety into polymers, potentially creating materials with unique electronic or optical properties. The nitrogen atom in the pyridine ring can also act as a ligand in coordination chemistry, opening avenues for catalyst development or the creation of metal-organic frameworks.

For researchers and industrial chemists seeking to leverage the synthetic potential of [2-(Methylamino)pyridin-3-yl]methanol, sourcing from a reliable manufacturer is crucial. We are dedicated to providing this compound with high purity (≥98.0%) and in quantities suitable for both research and industrial applications. Our manufacturing process in China ensures a stable supply chain and competitive pricing, making this versatile building block accessible. We offer standard packaging in 25 kg drums and are open to discussing custom requirements. We invite you to explore the synthetic possibilities this compound offers and to partner with us for your chemical sourcing needs. Inquire today to learn more about pricing and availability.