In the intricate world of chemical synthesis, the selection of appropriate intermediates can significantly influence the efficiency, yield, and success of a reaction pathway. Di-p-tolylamine (CAS 620-93-9) stands out as a versatile and valuable organic intermediate, finding widespread use in academic research and industrial applications. This article will explore the chemical synthesis aspects of Di-p-tolylamine, highlighting its properties and the advantages of incorporating it into your synthetic strategies. For those looking to buy Di-p-tolylamine, understanding its synthetic utility is key.

Di-p-tolylamine, chemically known as 4-methyl-N-(4-methylphenyl)aniline, is a diarylamine derivative. Its structure features two tolyl groups attached to a nitrogen atom, contributing to its unique reactivity and stability. As a solid crystalline powder, it presents a convenient form for handling and precise measurement in synthesis. Its molecular formula (C14H15N) and molecular weight (197.28 g/mol) are fundamental properties that chemists consider during reaction planning. The compound’s boiling point of approximately 330°C suggests it can withstand high-temperature reactions, while its melting point (78-82°C) indicates it is a stable solid at room temperature, simplifying storage and transportation for any Di-p-tolylamine supplier.

The synthetic utility of Di-p-tolylamine primarily stems from the reactivity of its amine nitrogen and the aromatic rings. It can participate in various coupling reactions, electrophilic aromatic substitutions, and as a precursor for functionalized molecules. Researchers often employ Di-p-tolylamine in the synthesis of polymers, dyes, and advanced materials due to its inherent electronic and structural properties. When looking to source this chemical, a reliable Di-p-tolylamine manufacturer in China can provide consistent quality, often exceeding 97% purity, which is crucial for obtaining high yields and predictable reaction outcomes in complex syntheses. The availability of Di-p-tolylamine in bulk quantities further supports its use in industrial-scale production.

Beyond its role in creating new molecules, Di-p-tolylamine is also utilized in analytical chemistry and as a component in specialized formulations. Its stability and specific reactivity make it an attractive building block for chemists designing novel functional materials or investigating reaction mechanisms. For businesses requiring this intermediate, understanding the price of Di-p-tolylamine is essential for budgeting. Partnering with a direct Di-p-tolylamine supplier often provides the best value, especially when negotiating for larger volumes.

In conclusion, Di-p-tolylamine is a chemical compound that offers significant advantages in organic synthesis. Its well-defined properties, versatile reactivity, and availability from reputable suppliers make it a cornerstone for many chemical development projects. We encourage you to explore how this valuable intermediate can enhance your synthesis strategies.