Advanced Phosphonium Reagent: Properties, Applications, and Synthesis in Organic Chemistry
Explore the key features and uses of a vital reagent in modern chemical research and development.
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7-Azabenzotriazol-1-yloxytris(dimethylamino)phosphonium Hexafluorophosphate
This advanced phosphonium reagent is a crucial component in various organic synthesis pathways. Its high purity and specific chemical structure make it indispensable for sophisticated reactions, particularly in the field of peptide coupling, enabling the efficient formation of amide bonds.
- Discover the high purity (>=99.0%) of this crucial chemical intermediate, vital for reliable research outcomes.
- Learn about the practical applications of this phosphonium reagent in organic synthesis, including its use in forming complex molecules.
- Understand the importance of CAS 156311-85-2 for precise chemical identification and sourcing in scientific literature.
- Explore the benefits of using a crystalline powder chemical reagent for ease of handling and accurate measurements in laboratory settings.
Key Advantages
Enhanced Synthesis Efficiency
Leverage the power of this phosphonium reagent to achieve superior results in peptide coupling and other synthetic processes, contributing to faster and more reliable research.
High Chemical Purity
Benefit from a minimum purity of 99.0%, ensuring that impurities do not interfere with sensitive reactions, a critical factor when working with specialty chemicals.
Versatile Application Range
This reagent's utility extends beyond peptide synthesis, serving as a valuable tool for creating diverse heterocycles and other complex organic molecules.
Key Applications
Organic Synthesis
This phosphonium reagent is a cornerstone in modern organic synthesis, facilitating a wide array of transformations with high efficiency and selectivity.
Peptide Coupling
Central to its utility is its role in peptide coupling reactions, where it aids in the formation of peptide bonds, a fundamental process in biochemistry and drug discovery.
Chemical Research
Researchers rely on this compound for its consistent performance and purity in experimental settings, driving innovation in chemical science.
Intermediate Production
It serves as a critical intermediate for synthesizing more complex molecules, including those with potential pharmaceutical or material science applications.