Tris(4-chlorophenyl)phosphine

98%

  • Product Code: 121799
  CAS:    1159-54-2
Molecular Weight: 365.62 g./mol Molecular Formula: ClC₆H₄₃P
EC Number: 214-596-7 MDL Number: MFCD00013639
Melting Point: 100-103 °C(lit.) Boiling Point:
Density: Storage Condition: room temperature, dry
Product Description: Tris(4-chlorophenyl)phosphine is primarily used as a ligand in coordination chemistry and catalysis. It is often employed in the synthesis of organometallic compounds, where it facilitates various transition metal-catalyzed reactions, such as cross-coupling reactions, hydrogenation, and hydroformylation. Its electron-withdrawing chlorophenyl groups enhance the stability and reactivity of the metal complexes it forms, making it valuable in creating efficient catalytic systems. Additionally, it finds applications in the development of phosphorescent materials and organic light-emitting diodes (OLEDs), where it contributes to the tuning of electronic properties. In research, it is utilized as a reagent for studying phosphine-based chemistry and designing novel catalysts for organic transformations.
Product Specification:
Test Specification
Melting Point 102-103
Purity (GC) 98-100
31P NMR Spectrum Conforms To Structure
Appearance White To Light Yellow Flakes, Crystals Or Powder
Infrared Spectrum Conforms To Structure
NMR (1H-NMR) Complies
Sizes / Availability / Pricing:
Size (g) Availability Price Quantity
1.000 10-20 days ฿680.00
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5.000 10-20 days ฿2,420.00
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25.000 10-20 days ฿5,560.00
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100.000 10-20 days ฿19,620.00
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Tris(4-chlorophenyl)phosphine
Tris(4-chlorophenyl)phosphine is primarily used as a ligand in coordination chemistry and catalysis. It is often employed in the synthesis of organometallic compounds, where it facilitates various transition metal-catalyzed reactions, such as cross-coupling reactions, hydrogenation, and hydroformylation. Its electron-withdrawing chlorophenyl groups enhance the stability and reactivity of the metal complexes it forms, making it valuable in creating efficient catalytic systems. Additionally, it finds applications in the development of phosphorescent materials and organic light-emitting diodes (OLEDs), where it contributes to the tuning of electronic properties. In research, it is utilized as a reagent for studying phosphine-based chemistry and designing novel catalysts for organic transformations.
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