Dimethyl Aminoterephthalate, identified by its CAS number 5372-81-6, is a chemical compound of significant interest due to its versatile chemical structure and wide-ranging applications. Appearing typically as a yellow to light green powder, this molecule is a valuable intermediate for many advanced synthesis processes. For industries and research institutions requiring high-quality chemical building blocks, understanding the chemistry and sourcing of Dimethyl Aminoterephthalate is essential.

The chemical formula C10H11NO4 and a molecular weight of approximately 209.20 g/mol describe this organic compound. Its structure is based on a benzene ring functionalized with an amino group and two methyl ester groups attached at the para positions. This unique arrangement makes it a highly reactive and adaptable intermediate. For example, the amino group can be readily acylated, alkylated, or involved in coupling reactions, while the ester groups can be hydrolyzed to carboxylic acids, which are crucial for forming salts or participating in esterification reactions. When procuring chemicals, noting these functional groups is key to understanding their potential applications.

One of the primary applications of Dimethyl Aminoterephthalate is its use as a precursor in the synthesis of fluorescent dyes. The presence of the amine moiety, which is an electron-donating group, conjugated with the aromatic system, allows for the development of chromophores with tailored optical properties. These dyes are essential components in analytical chemistry, medical diagnostics, and the manufacturing of high-performance displays. For companies that need to buy these specialized dye components, sourcing high-purity Dimethyl Aminoterephthalate is a critical first step.

Another significant area where this intermediate finds application is in the creation of Metal-Organic Frameworks (MOFs). MOFs are advanced porous materials formed by the self-assembly of metal ions or clusters with organic linkers. Dimethyl Aminoterephthalate, after hydrolysis of its ester groups to form the corresponding dicarboxylic acid, serves as an excellent organic linker. The rigid terephthalate backbone, combined with the potential for further functionalization via the amine group, enables the construction of MOFs with tunable pore sizes and chemical properties, ideal for gas storage, separation, and catalysis. Researchers and engineers looking to buy these materials for advanced applications often rely on the availability of such quality linkers.

The field of organic electronics also utilizes Dimethyl Aminoterephthalate. Its aromatic structure contributes to π-conjugation, which is fundamental for charge transport in organic semiconductors. By incorporating this intermediate into larger molecular systems, researchers can develop materials for use in Organic Light-Emitting Diodes (OLEDs), organic solar cells, and other flexible electronic devices. The demand for novel materials in this sector drives the need for reliable suppliers of specialized organic intermediates. We, as a manufacturer and supplier in China, are well-positioned to meet this growing demand.

For procurement professionals and research scientists, sourcing Dimethyl Aminoterephthalate requires careful consideration of purity, consistency, and supplier reliability. With a minimum purity of 97%, our product meets the stringent requirements for advanced synthesis. As a direct manufacturer, we can offer competitive pricing and ensure a stable supply chain. We encourage potential buyers to contact us for inquiries regarding pricing, bulk orders, and technical specifications, ensuring you receive the best quality intermediate for your critical applications.

In conclusion, Dimethyl Aminoterephthalate (CAS: 5372-81-6) is a compound of considerable chemical importance, underpinning advancements in fluorescent dyes, MOFs, and organic electronics. We are committed to being a leading provider of this essential intermediate, offering both quality and reliability from our base in China.