Bis(3,5-dimethylphenyl)chlorophosphine: Enabling Advanced Chemical Synthesis
A vital phosphorus intermediate for catalysis and complex molecule creation.
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Bis(3,5-dimethylphenyl)chlorophosphine
This chemical intermediate is instrumental in the creation of sophisticated chemical compounds, particularly in the realm of chiral phosphine ligands. Its structure makes it a valuable phosphorus precursor for a variety of catalytic applications and advanced organic synthesis projects, offering high purity for reliable results in demanding chemical processes.
- Serving as a key phosphorus precursor, this intermediate is crucial for developing novel organophosphorus compounds used in cutting-edge chemical synthesis.
- The synthesis of (S)- and (R)-2,2?-Bis[bis(3,5-dimethylphenyl)phosphinoyl]-5,5?,6,6?,7,7?,8,8?-octahydro-1,1?-binaphthyl (Xyl-H 8 -BINAPO) relies on this essential chemical, highlighting its role in producing specialized ligands.
- As an important intermediate for catalysis, it enables more efficient and selective chemical reactions, impacting fields from pharmaceuticals to material science.
- Users often search for 'CAS 74289-57-9 chemical intermediate' to find reliable sources for this compound, underscoring its specific industrial demand.
Key Advantages Offered
Enabling Catalysis
The compound's structure makes it ideal for developing highly effective catalysts, supporting the search for 'organophosphorus compound applications' in various industrial sectors.
Building Complex Molecules
It serves as a critical component in the 'synthesis of chiral phosphine ligands,' which are vital for asymmetric synthesis and the production of enantiomerically pure compounds.
High Purity Intermediate
With a focus on purity, this chemical intermediate supports precise 'advanced chemical synthesis,' ensuring reproducible outcomes in research and development.
Key Applications
Catalysis
As a precursor for phosphine ligands, it plays a significant role in homogeneous catalysis, aiding in various cross-coupling reactions and enabling greener chemical processes.
Pharmaceutical Synthesis
Its use in creating chiral ligands is critical for the asymmetric synthesis of active pharmaceutical ingredients (APIs), where stereochemistry is paramount.
Material Science
Phosphorus-containing compounds often find applications in advanced materials, and this intermediate can contribute to the development of new functional materials.
Research & Development
It is a valuable tool for chemists in research settings, facilitating experiments related to 'phosphorus precursor chemical' development and exploration of new reaction pathways.
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