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Synonyms: triphenylphosphane, triphenyl phosphine, phosphorustriphenyl, TPP, PPH3
CAS: 603-35-0
Molecular Formula: C18H15P
EINECS: 210-036-0
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Triphenylphosphine appears as colorless crystals or a white powder, characterized by exceptional purity and solubility in various organic solvents. Its molecular structure, composed of three phenyl rings surrounding a central phosphorus atom, imparts stability and reactivity crucial for catalytic processes.
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Item |
Specification |
|
Appearance |
White crystalline powder or granular |
|
Assay |
≥99.5% |
|
Triphenylphosphine oxide |
≤0.5% |
|
Residue on Ignition |
≤0.1% |
|
Melting point |
79.0 ℃ to 82.0 ℃ |
|
Chroma |
≤15 APHA |
|
Packing |
25kg/bag |
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Storage: Keep container sealed tightly, store in a cool, dry and well-ventilated warehouse. Stay away from sparks and heat sources.
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Catalysis:Triphenylphosphine serves as a vital ligand in organometallic catalysis, forming stable complexes with transition metals to drive essential reactions such as hydrogenation, cross-coupling, and olefin metathesis.
Pharmaceuticals: Its role in pharmaceutical synthesis is indispensable, facilitating the construction of intricate molecular structures pivotal for drug discovery and development.
Materials Science: Its role in pharmaceutical synthesis is indispensable, facilitating the construction of intricate molecular structures pivotal for drug discovery and development.
Organic Synthesis: With its nucleophilic and reducing properties, Triphenylphosphine enables a myriad of organic transformations, including the Wittig reaction, Staudinger reaction, and Appel reaction, among others.
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Versatility: Triphenylphosphine stands out for its versatility, functioning as a catalyst, ligand, and reagent in a wide range of chemical reactions. Its flexibility enables the synthesis of complex molecules with precision and efficiency.
Selective Reactivity:everaging its unique properties, Triphenylphosphine displays selective reactivity towards specific functional groups, allowing for controlled manipulation and customization of molecular structures.
Mild Reaction Conditions: Many reactions employing Triphenylphosphine proceed under mild conditions, ensuring compatibility with delicate substrates and enhancing overall reaction efficiency and yield.
Commercial Availability: Triphenylphosphine is readily available in high purity, meeting the rigorous demands of academic research and industrial applications with ease.
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In conclusion, Triphenylphosphine emerges as a catalyst for excellence in chemistry, offering unmatched versatility, reliability, and performance. Its widespread applications continue to drive advancements and breakthroughs in scientific research and industrial processes, pushing the boundaries of what's possible in chemical synthesis and catalysis.
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