Methyl 4-(butyrylamino)-3-methyl-5-nitrobenzoate, identified by its CAS number 152628-01-8, is a compound of significant interest within the realm of organic synthesis. Its specific molecular structure, incorporating nitro and amide functionalities alongside an ester group, endows it with a versatile reactivity profile, making it a valuable building block for creating more complex organic molecules. Understanding its properties is key for any chemist aiming to leverage it in their synthesis pathways.

Chemically, this compound typically presents as a white powder. Its properties, such as solubility in solvents like chloroform and methanol, are important considerations for reaction setup and purification procedures. The presence of the nitro group, in particular, makes it susceptible to reduction reactions, while the ester and amide groups can undergo hydrolysis or amidation under appropriate conditions. These functional groups are precisely what make it an effective pharmaceutical intermediate.

For researchers and chemical manufacturers looking to buy Methyl 4-(butyrylamino)-3-methyl-5-nitrobenzoate, its application in the synthesis of Telmisartan highlights its importance. This specific Telmisartan intermediate plays a role in streamlining the overall synthesis, potentially improving yields and reducing the generation of unwanted by-products. This efficiency gain is crucial for both laboratory-scale research and industrial production, where cost and output are critical metrics.

When sourcing such chemicals, professionals often seek out suppliers who can provide not only the compound but also comprehensive technical documentation. Information on synthesis routes, safety data (like MSDS), and purity analysis is readily available from reputable manufacturers. Exploring options from a trusted supplier, especially those in China known for fine chemical production, can offer significant advantages in terms of price and availability.

The utility of Methyl 4-(butyrylamino)-3-methyl-5-nitrobenzoate extends beyond a single application. Its functional groups offer multiple sites for chemical modification, making it a candidate for research into novel compounds in agrochemicals, dyes, and other specialty chemical sectors. As chemists continue to innovate, intermediates like this remain essential tools in the molecular construction toolkit. If you are looking to purchase this intermediate, securing a reliable supply chain is the first step towards successful synthetic endeavors.