High-Purity Chiral Ligand: Exploring (S)-(-)-2,2′-Bis(diphenylphosphino)-1,1′-binaphthyl for Advanced Asymmetric Catalysis
Unlock superior enantioselectivity with a leading chiral diphosphine ligand, essential for advanced chemical synthesis.
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(S)-(-)-2,2′-Bis(diphenylphosphino)-1,1′-binaphthyl
This exceptional chiral diphosphine ligand, (S)-(-)-2,2′-Bis(diphenylphosphino)-1,1′-binaphthyl, is a cornerstone in modern asymmetric catalysis. Its near-white crystalline powder form and high purity level (≥98% via HPLC) make it a reliable component for synthesizing complex chiral molecules with exceptional precision.
- Utilize this ligand for the asymmetric hydrogenation and hydroformylation of olefins, leading to highly specific chiral products.
- Leverage its capability in the asymmetric Heck reaction to create new carbon-carbon bonds with controlled stereochemistry.
- Employ BINAP-metal complexes for the catalysis of aryl ketones and other substrates, achieving high selectivity.
- Discover its utility in the synthesis of pharmaceutical intermediates requiring precise stereochemical control, contributing to drug development.
Advantages Offered by the Product
Superior Enantioselectivity
Achieve remarkably high enantioselectivity in your catalytic reactions, crucial for producing enantiomerically pure compounds vital for pharmaceutical development.
Versatile Catalytic Performance
This ligand demonstrates broad applicability across various transition metals and reaction types, including asymmetric hydrogenation of olefins, making it a versatile tool in your synthetic arsenal.
Enhanced Reaction Efficiency
The robust coordination properties of BINAP contribute to stable metal complexes, leading to improved catalytic efficiency and reduced by-product formation, supporting green chemistry principles.
Key Applications
Asymmetric Catalysis
A primary application is in asymmetric catalysis, enabling the creation of chiral molecules with specific spatial arrangements, essential for drug efficacy and material properties.
Pharmaceutical Synthesis
Crucial for the synthesis of pharmaceutical intermediates, where stereochemistry dictates biological activity, enhancing the precision in pharmaceutical intermediate synthesis.
Fine Chemical Production
Used in the production of fine chemicals, its ability to control stereochemistry is vital for developing specialized materials and high-value chemical products.
Organic Synthesis Research
An indispensable tool for researchers in organic synthesis, facilitating complex transformations and advancing the understanding of enantioselective reaction catalysts.
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