10377-81-8 | 2-aminoethanol, monoester with boric acid

Availability
Typically In Stock

Description

• Catalog Number: AE30254
• Chemical Name: 2-aminoethanol, monoester with boric acid
• CAS Number: 10377-81-8
• Molecular Formula: C2H8BNO3
• Molecular Weight: 104.9008
• SMILES: B(O)(O)OCCN

Upstream Synthesis Route

Monoethanolamine borate, also known as MEA borate, is a versatile compound used extensively in chemical synthesis. This unique substance plays a crucial role as a boron-containing reagent in various organic reactions due to its exceptional properties. One key application of Monoethanolamine borate is its use as a catalyst in esterification and transesterification reactions. The boron atom in MEA borate interacts with the carbonyl group of esters, facilitating the formation of new bonds and accelerating the reaction rate. This catalyst is particularly valuable in industrial settings where efficient and selective synthesis of esters is desired.Additionally, Monoethanolamine borate serves as a valuable precursor in the preparation of boron-containing polymers. By incorporating MEA borate into polymerization reactions, it is possible to introduce boron functionalities into the polymer matrix, imparting unique physical and chemical properties to the resulting polymer. This can lead to enhanced thermal stability, flame retardancy, and other desirable characteristics in the final material.Furthermore, Monoethanolamine borate is utilized in various metal-catalyzed transformations as a boron source. It can act as a boron ligand in transition metal-catalyzed cross-coupling reactions, enabling the formation of carbon-boron bonds that are crucial in the synthesis of pharmaceuticals, agrochemicals, and other fine chemicals.Overall, Monoethanolamine borate's versatility and reactivity make it an essential component in the toolbox of chemists and researchers engaged in chemical synthesis, catalysis, and materials science. Its ability to facilitate diverse organic reactions and introduce valuable boron functionalities make it a valuable asset in the development of new compounds and materials.