N,N-Dibenzylethanolamine (CAS 101-06-4) is a tertiary amine alcohol that holds significant importance in various chemical industries, particularly in the realm of electronic chemicals and fine chemical intermediates. Its molecular structure, featuring an ethanolamine backbone substituted with two benzyl groups on the nitrogen atom, imparts a unique combination of properties that are leveraged in sophisticated manufacturing processes. Understanding these properties is key for researchers and formulators seeking to optimize their product performance.

The chemical formula for N,N-Dibenzylethanolamine is C16H19NO, with a molecular weight of approximately 241.33 g/mol. Physically, it typically appears as a colorless to light yellow liquid, possessing a density of about 1.093 g/cm³. Its boiling point is relatively high, around 365.4 °C at standard atmospheric pressure, and it has a flash point of approximately 136.2 °C, indicating moderate flammability. Solubility data often points to it being soluble in organic solvents, which is a common characteristic for amine-based compounds used in chemical formulations.

One of the most prominent applications for N,N-Dibenzylethanolamine is as an intermediate in the synthesis of photoresists. Photoresists are light-sensitive materials used in photolithography, a critical process for manufacturing semiconductors, printed circuit boards, and displays. The specific chemical structure of N,N-Dibenzylethanolamine can contribute to the desired characteristics of the photoresist, such as sensitivity to specific wavelengths of light (like G-line or I-line), dissolution properties in developers, and adhesion to substrates. For product formulators, selecting the right intermediates like this is crucial for achieving the required resolution and reliability in their end products.

Beyond photoresists, N,N-Dibenzylethanolamine finds utility in other areas of fine chemical synthesis. Its tertiary amine functionality can participate in various organic reactions, making it a versatile building block. This versatility means that researchers and chemical manufacturers looking to develop novel materials or optimize existing synthesis routes might find this compound to be a valuable reagent. As with any chemical procurement, sourcing from reliable manufacturers is essential to ensure the quality and consistency needed for these sensitive applications.

For professionals seeking to purchase N,N-Dibenzylethanolamine, it is important to work with established suppliers who can provide comprehensive technical data and support. Whether you are a research scientist exploring new material formulations or a production manager ensuring a steady supply of intermediates, understanding the chemical profile of N,N-Dibenzylethanolamine will guide you toward successful integration into your processes. Consider inquiring about bulk purchase options from manufacturers in China for competitive pricing.