1,1'-Bis(dicyclohexylphosphino)ferrocene: A Versatile Ligand for Chemical Synthesis
Unlock advanced catalytic capabilities with this essential organometallic compound for pharmaceutical and material innovations.
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1,1'-Bis(dicyclohexylphosphino)ferrocene
This organometallic compound is a critical ligand in modern organic synthesis, particularly in palladium-catalyzed cross-coupling reactions. Its unique structure, featuring a ferrocene core with dicyclohexylphosphino groups, imparts exceptional properties that enhance reaction efficiency and selectivity.
- Facilitate complex organic synthesis using high purity chemical synthesis techniques.
- Explore the applications of ferrocene ligand applications in developing novel chemical entities.
- Utilize this palladium catalyst ligand for efficient construction of carbon-carbon and carbon-heteroatom bonds.
- Investigate the role of 1,1'-Bis(dicyclohexylphosphino)ferrocene CAS 146960-90-9 in creating advanced materials.
Advantages of Using This Compound
Enhanced Catalytic Activity
As a palladium catalyst ligand, it significantly boosts the efficiency of various cross-coupling reactions, contributing to pharmaceutical intermediate production and broader organic synthesis.
High Purity and Stability
With a minimum purity of 97% and a melting point between 134-136°C, this compound offers reliability and consistent performance in demanding chemical processes.
Versatile Application Spectrum
Its utility spans from facilitating Suzuki-Miyaura and Heck reactions to playing a role in the synthesis of triarylmethanes, showcasing its importance in diverse chemical pathways.
Key Applications
Catalysis
Leverage the power of this palladium catalyst ligand for efficient and selective organic synthesis, crucial for pharmaceutical intermediate production.
Pharmaceutical Synthesis
Its role as a pharmaceutical intermediate is vital for the creation of complex drug molecules, benefiting from its high purity and reactivity.
Materials Science
Explore its potential in developing advanced materials, leveraging the unique properties offered by its organometallic structure.
Research and Development
An indispensable tool for chemists investigating new reaction pathways and optimizing existing synthetic routes.