Josiphos SL-J505-1
[CAS# 849924-76-1]

Identification

• Classification: Chemical reagent >> Organic reagent >> Phosphine ligand
• Name: Josiphos SL-J505-1
• Synonyms: (1R)-1-[Bis(1,1-dimethylethyl)phosphino]-2-[(1R)-1-[bis(2-methylphenyl)phosphino]ethyl]ferrocene
• Molecular Formula: C₃₄H₄₄FeP₂
• Molecular Weight: 570.51
• CAS Registry Number: 849924-76-1
• SMILES: Cc1ccccc1P(c2ccccc2C)[C@H](C)[C]3[CH][CH][CH][C]3P(C(C)(C)C)C(C)(C)C.[CH]1[CH][CH][CH][CH]1.[Fe]

Safety Data

• Hazard Symbols: GHS07 Warning
• Hazard Statements: H315-H319-H335
• Precautionary Statements: P261-P305+P351+P338

Discovory and Applicatios

Josiphos SL-J505-1, a notable member of the Josiphos ligand family, represents a significant advancement in the realm of asymmetric catalysis. This chiral phosphine ligand was designed to enhance the efficiency and selectivity of transition metal-catalyzed reactions, contributing notably to the field of organometallic chemistry.

The discovery of Josiphos SL-J505-1 involved the synthesis of a new ligand with optimized steric and electronic properties. Its synthesis process typically includes the reaction of phosphine precursors with specific chiral bidentate ligands, under controlled conditions to achieve high purity and desired stereochemical outcomes. The ligand is characterized by its unique phosphorus atom bonded to two distinct chiral groups, creating a stereogenic environment that significantly influences its interaction with metal centers.

Josiphos SL-J505-1 was developed to address challenges in asymmetric synthesis, particularly in reactions requiring high enantioselectivity. Its design focuses on providing improved control over reaction conditions by stabilizing transition metal centers such as those in palladium, rhodium, or ruthenium complexes. This stabilization enhances the ligand's ability to direct reactions toward the desired chiral products with high precision.

One of the primary applications of Josiphos SL-J505-1 is in asymmetric hydrogenation, where it facilitates the conversion of unsaturated substrates into chiral products. The ligand's effectiveness in this reaction is attributed to its ability to create a chiral environment around the metal center, which is crucial for achieving high levels of enantioselectivity. This application is particularly valuable in the pharmaceutical industry for synthesizing chiral drugs and fine chemicals.

Additionally, Josiphos SL-J505-1 has demonstrated utility in other asymmetric transformations, such as asymmetric hydroformylation and allylic substitution reactions. Its role in these processes underscores its versatility and the potential for broad applications in organic synthesis. By influencing the electronic and steric properties of the metal center, Josiphos SL-J505-1 enhances the selectivity and activity of the catalytic process.

Beyond traditional organic synthesis, Josiphos SL-J505-1 has potential applications in material science and other specialized areas where chiral catalysts are beneficial. Its ability to impart specific chiral properties to materials could lead to the development of new functional materials with unique optical or electronic properties.

Overall, Josiphos SL-J505-1 exemplifies the progress in ligand design for asymmetric catalysis. Its introduction has provided chemists with a powerful tool for achieving high enantioselectivity in a variety of reactions, further advancing the capabilities of organometallic chemistry and its applications in industrial and academic settings.