2-(Diphenylphosphino)-biphenyl

Catsyn offer gram to tons of 2-(Diphenylphosphino)-biphenyl | CAS 13885-09-1, its formula is C24H19P, molecular weight is 338.38g/mol and the purity is usually 98% Min..

Synonyms : 2-(DIPHENYLPHOSPHINO)-BIPHENYL;BIPHENYL-2-YL-DIPHENYL-PHOSPHANE;DIPHENYL(2-PHENYLPHENYL)PHOSPHANE;[1,1'-BIPHENYL]-2-YLDIPHENYL-PHOSPHINE

This substance (CAS No.: 13885-09-1), used as a catalyst and ligand, typically contains specific functional groups or heteroatoms (such as nitrogen, phosphorus, and oxygen) in its molecular structure. These groups interact with other atoms or molecules through covalent or coordinate bonds to form a stable chemical structure. Its physicochemical properties include specific melting and boiling points, solubility, and chemical stability. These characteristics are closely related to its intramolecular electronic effects, such as inductive and conjugation effects, which jointly regulate the distribution of molecular orbital energy levels, forming an extended conjugated system and enhancing the intramolecular electron delocalization ability, thereby improving its chemical stability. In catalytic reactions, this substance lowers the activation energy by donating or accepting electron pairs, exhibiting excellent catalytic activity. As a ligand, its lone pair electrons or π electrons can form stable coordinate bonds with the metal center, regulating the electronic structure of the metal center through steric hindrance and electronic effects, thus affecting the selectivity and efficiency of the catalytic reaction. This substance has wide applications in materials science, organic synthesis, and OLED display technology. As a catalyst, its core function is to accelerate specific chemical reactions, increase product yield, and reduce energy consumption, especially excelling in asymmetric catalytic synthesis. It can efficiently construct chiral centers, providing crucial technical support for the synthesis of pharmaceuticals and fine chemicals. As a ligand, it forms homogeneous or heterogeneous catalysts through coordination with metal ions, and is widely used in industrial processes such as olefin polymerization, hydrogenation, and cross-coupling reactions, significantly improving reaction efficiency and product purity. In the OLED field, this substance, as a functional ligand or catalyst, can optimize the molecular structure of the light-emitting layer material, improve device luminous efficiency and stability, and promote the commercialization of flexible display technology. Its industry value lies in promoting green chemistry processes and achieving breakthrough improvements in the performance of high-end electronic materials.