TRIS(DIETHYLAMINO)PHOSPHINE

98%

  • Product Code: 72969
  Alias:    Hexaethyl phosphorous triamide; Hexaalkyl phosphorous triamide; Hexyl ethyl phosphorous triamide; Tris(diethylamino) phosphine; ; Hexaethylphosphoramidite HEPT
  CAS:    2283-11-6
Molecular Weight: 247.36 g./mol Molecular Formula: C₁₂H₃₀N₃P
EC Number: 218-920-8 MDL Number:
Melting Point: Boiling Point: 80-90 °C10 mm Hg(lit.)
Density: 0.903 g/mL at 25 °C(lit.) Storage Condition: Room temperature, inert gas atmosphere
Product Description: Used as a ligand in coordination chemistry, it facilitates the formation of metal complexes, particularly in catalytic processes. It is employed in the synthesis of organophosphorus compounds, which are valuable in pharmaceuticals and agrochemicals. The compound is also utilized in the preparation of phosphine-based polymers and materials with specific electronic properties. In organic synthesis, it acts as a reducing agent and participates in cross-coupling reactions, enhancing the efficiency of these transformations. Additionally, it is applied in the development of advanced materials, such as semiconductors and optoelectronic devices, due to its ability to modify surface properties and improve performance.
Product Specification:
Test Specification
Purity 98 100%
REFRACTIVE INDEX N20D 1.471-1.475
APPEARANCE COLOR COLORLESS TO LIGHT YELLOW
APPEARANCE FORM Liquid
Sizes / Availability / Pricing:
Size (g) Availability Price Quantity
5.000 10-20 days $67.30
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25.000 10-20 days $139.63
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100.000 10-20 days $491.71
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TRIS(DIETHYLAMINO)PHOSPHINE
Used as a ligand in coordination chemistry, it facilitates the formation of metal complexes, particularly in catalytic processes. It is employed in the synthesis of organophosphorus compounds, which are valuable in pharmaceuticals and agrochemicals. The compound is also utilized in the preparation of phosphine-based polymers and materials with specific electronic properties. In organic synthesis, it acts as a reducing agent and participates in cross-coupling reactions, enhancing the efficiency of these transformations. Additionally, it is applied in the development of advanced materials, such as semiconductors and optoelectronic devices, due to its ability to modify surface properties and improve performance.
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