Diphenylphosphine oxide
98%
Reagent
Code: #122108
Alias
Diphenylphosphine
CAS Number
4559-70-0
blur_circular Chemical Specifications
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Molecular Information
Weight
202.19 g/mol
Formula
C₁₂H₁₁OP
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Registry Numbers
MDL Number
MFCD00002079
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Physical Properties
Melting Point
56-57 °C(lit.)
Boiling Point
105 °C/0.1kPa
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Storage & Handling
Storage
room temperature, away from light
description Product Description
Diphenylphosphine oxide is widely used as a key intermediate in organic synthesis, particularly in the production of organophosphorus compounds. It serves as a precursor for the synthesis of phosphine ligands, which are essential in catalytic processes, including cross-coupling reactions and hydrogenation. Additionally, it is employed in the development of flame retardants, where its phosphorus content enhances the fire-resistant properties of materials. In polymer chemistry, it acts as a stabilizer and modifier, improving the thermal and mechanical properties of plastics. Furthermore, it finds applications in the pharmaceutical industry for the synthesis of bioactive molecules and drug candidates. Its role in coordination chemistry is also notable, as it forms complexes with metals for use in various catalytic systems.
format_list_bulleted Product Specification
| Test Parameter | Specification |
|---|---|
| Melting Point | 51-58 |
| Purity (GC) | 98-100 |
| Appearance | White Powder, Crystals, Needles, And/Or Solid |
| Infrared Spectrum | Conforms To Structure |
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Diphenylphosphine oxide
Diphenylphosphine oxide is widely used as a key intermediate in organic synthesis, particularly in the production of organophosphorus compounds. It serves as a precursor for the synthesis of phosphine ligands, which are essential in catalytic processes, including cross-coupling reactions and hydrogenation. Additionally, it is employed in the development of flame retardants, where its phosphorus content enhances the fire-resistant properties of materials. In polymer chemistry, it acts as a stabilizer and modifier, improving the thermal and mechanical properties of plastics. Furthermore, it finds applications in the pharmaceutical industry for the synthesis of bioactive molecules and drug candidates. Its role in coordination chemistry is also notable, as it forms complexes with metals for use in various catalytic systems.
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