In the realm of advanced chemical synthesis, the careful selection of starting materials and intermediates is fundamental to achieving successful outcomes. 3-(4-Nitrophenoxy)propionic Acid, bearing CAS number 10572-16-4, is a compound that consistently proves its worth as a versatile tool for chemists. As a premier supplier and manufacturer of fine chemicals, we often engage with researchers and formulators who are leveraging this unique molecule for its specific chemical properties and reactivity. Understanding its potential applications and how to best acquire it is key for professionals in the field.

The Chemical Characteristics of 3-(4-Nitrophenoxy)propionic Acid

With a molecular formula of C9H9NO5 and a molecular weight of 211.17 g/mol, 3-(4-Nitrophenoxy)propionic Acid is typically supplied with a purity of 97% or higher. This high purity is crucial for ensuring predictable reaction pathways and the integrity of the final products. The presence of the nitro group attached to the aromatic ring, along with the propionic acid side chain linked via an ether bond, provides multiple avenues for chemical modification. The nitro group can be readily reduced to an amine, opening doors to amide formation and other nitrogen-containing functional groups. The carboxylic acid moiety offers standard reactivity for esterification, acid chloride formation, or salt formation, making it a flexible intermediate for various synthetic strategies.

Applications in Diverse Chemical Fields

Our clients frequently utilize 3-(4-Nitrophenoxy)propionic Acid in several key areas. In pharmaceutical research, it serves as a critical intermediate for the synthesis of Active Pharmaceutical Ingredients (APIs) and their precursors. Its structure can be incorporated into molecules designed to target specific biological pathways. Beyond pharmaceuticals, this compound finds application in the development of specialized agrochemicals, where its unique functional groups can contribute to the efficacy of crop protection agents. For materials scientists, it may serve as a monomer or building block for novel polymers or functional materials. Professionals seeking a reliable 'pharmaceutical raw intermediate supplier' will find this compound to be a valuable addition to their synthesis toolkit.

Tips for Sourcing and Usage

When looking to purchase 3-(4-Nitrophenoxy)propionic Acid, it's important to partner with a reputable manufacturer that emphasizes quality and consistency. We recommend inquiring about sample availability and detailed technical data sheets to confirm the product meets your specific synthesis requirements. For those planning larger-scale production, establishing a direct relationship with a 'chemical manufacturer in China' can provide significant advantages in terms of pricing and supply chain reliability. Always ensure that your chosen supplier can provide robust documentation, including Certificates of Analysis, to support your internal quality assurance processes. By understanding the chemical's potential and sourcing it wisely, researchers can effectively unlock its value in their synthetic endeavors.