High-Purity Dichloro[(S)-2,2'-bis(diphenylphosphino)-1,1'-binaphthyl]ruthenium(II) for Advanced Catalysis and Research
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Dichloro[(S)-2,2'-bis(diphenylphosphino)-1,1'-binaphthyl]ruthenium(II)
This high-purity organometallic compound, identified by CAS 134524-84-8, serves as a critical catalyst in advanced chemical synthesis. Its unique chiral structure and ruthenium center make it invaluable for achieving high enantioselectivity in various organic transformations, driving innovation in pharmaceutical and fine chemical industries.
- Leverage Dichloro[(S)-2,2'-bis(diphenylphosphino)-1,1'-binaphthyl]ruthenium(II) for precise asymmetric synthesis, ensuring the production of specific enantiomers vital for drug development.
- Explore the utility of this organometallic compound in complex catalytic reactions, utilizing its BINAP chiral ligand for enhanced reaction control and efficiency.
- Benefit from the stability and high purity (97%+) of this ruthenium catalyst, ensuring reliable and reproducible results in your laboratory or industrial processes.
- Investigate its potential in photoelectric materials, expanding the applications of this versatile organometallic compound beyond traditional catalysis.
Key Advantages
Enhanced Enantioselectivity
The presence of the BINAP ligand in this ruthenium catalyst significantly enhances its ability to promote asymmetric synthesis, leading to higher yields of desired enantiomers.
Versatile Catalytic Applications
This organometallic compound can be applied across a broad spectrum of reactions, including hydrogenation, isomerization, and cyclization, making it a cornerstone for various synthetic strategies.
Product Stability and Purity
Stored under inert atmosphere and at refrigerated conditions, this catalyst maintains its integrity, ensuring consistent performance. The high purity of CAS 134524-84-8 guarantees reliable outcomes.
Key Applications
Asymmetric Catalysis
A primary use for this chiral catalyst is in asymmetric catalytic reactions, critical for synthesizing enantiomerically pure compounds used in pharmaceuticals and agrochemicals.
Organic Synthesis
As a powerful organometallic compound, it facilitates complex organic transformations, enabling the construction of intricate molecular architectures.
Chiral Ligand Development
The BINAP component of this ruthenium complex makes it a subject of study for developing new chiral ligands that can impart specific stereochemical control in catalysis.
Material Science Research
Emerging applications may involve its use in photoelectric materials and other advanced material science fields, capitalizing on its unique electronic and structural properties.