The field of chemical synthesis is continuously evolving, demanding innovative and versatile intermediates to create new materials and molecules. Bis-2,6-N,N-(2-hydroxyethyl)diaminotoluene, identified by its CAS number 149330-25-6, is a compound that fits this description, serving as a crucial component in numerous synthetic pathways. Its specific molecular architecture, featuring a substituted toluene ring with two hydroxyethylamino groups, provides a unique reactive profile that is highly valued in chemical production.

As a high-purity chemical raw material, Bis-2,6-N,N-(2-hydroxyethyl)diaminotoluene offers significant advantages to chemists. The presence of both amine and alcohol functionalities allows for a broad spectrum of chemical reactions. These include, but are not limited to, esterification, amidation, and further functionalization of the aromatic ring. Such versatility makes it an indispensable part of many complex organic synthesis strategies, allowing for the construction of sophisticated molecular frameworks.

The role of this compound as a chemical intermediate is particularly pronounced in the pharmaceutical and fine chemical industries. It acts as a foundational building block, enabling the synthesis of active pharmaceutical ingredients (APIs) and other high-value chemicals. Ensuring the consistent availability and quality of such chemical production building blocks is a primary focus for leading manufacturers and suppliers. As a dedicated chemical intermediates supplier in China, we understand the critical nature of providing materials that meet exacting standards.

The physical properties of Bis-2,6-N,N-(2-hydroxyethyl)diaminotoluene, such as its stable white crystalline powder form and the necessity for specific storage conditions, are important considerations for laboratory and industrial settings. Proper handling and storage are key to maintaining its reactivity and purity. The commitment to providing materials with documented properties, such as a molecular weight of 210.27 and a purity of ≥98%, ensures that researchers and production managers can confidently incorporate this intermediate into their processes, driving innovation forward.