1,1'-Spirobiindane-7,7'-diol: A Novel C2-Symmetric Chiral Ligand for Advanced Chemical Synthesis
Unlock new frontiers in asymmetric catalysis with our high-purity C2-symmetric spirobiindane-7,7'-diol.
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1,1'-Spirobiindane-7,7'-diol
1,1'-Spirobiindane-7,7'-diol, also known as SPINOL, is a highly recognized C2-symmetric chiral ligand. Its rigid structure, inherent stability, and amenability to modification make it a cornerstone in the development of highly efficient catalysts for enantioselective synthesis.
- The quest for effective asymmetric synthesis of chiral ligands, such as SPINOL, is crucial for advancing enantioselective catalysis.
- Understanding the synthesis and optical resolution of 1,1'-spirobiindane-7,7'-diol is key for developing advanced catalytic systems.
- SPINOL's role as a 'privileged chiral ligand' underscores its importance in achieving high enantioselectivity in various chemical transformations.
- We provide reliable access to this vital component for your research and industrial needs in chiral resolution.
Benefits Offered
Enhanced Catalytic Performance
Leverage the superior C2-symmetric structure of SPINOL to achieve exceptional enantioselectivity in your asymmetric synthesis reactions, driving higher product purity.
Structural Versatility
The ease of modification of the spirobiindane skeleton allows for fine-tuning catalyst properties, providing a flexible platform for diverse catalytic applications, especially in the field of chiral resolution.
Proven Efficacy
Benefit from a ligand widely regarded as a 'privileged chiral ligand,' demonstrated to provide significant advantages in catalytic asymmetric synthesis, supporting your development goals.
Key Applications
Chiral Ligand Development
Utilize 1,1'-spirobiindane-7,7'-diol as a foundational element for designing novel chiral ligands used in various catalytic asymmetric synthesis processes.
Asymmetric Synthesis
Employ SPINOL-based catalysts to achieve high yields and enantiomeric excesses in complex organic transformations, crucial for pharmaceutical and fine chemical industries.
Catalysis Research
Explore the catalytic potential of SPINOL derivatives in a wide range of reactions, including asymmetric additions and cycloadditions, pushing the boundaries of chemical synthesis.
Fine Chemical Production
Integrate efficient catalytic systems derived from SPINOL into production workflows for creating high-value chiral fine chemicals.