3739-98-8

Basic information

• Product Name: (TRIMETHYLSILYLMETHYL)TRIPHENYLPHOSPHONIUM IODIDE
• Synonyms: (TRIMETHYLSILYLMETHYL)TRIPHENYLPHOSPHONIUM IODIDE;Trimethylsylilmethyltriphenylphosphonium iodide, 95 %;Trimethylsylilmethyltriphenylphosphonium iodide
• CAS NO: 3739-98-8
• Molecular Formula: C₂₂H₂₆PSi*I
• Molecular Weight: 476.41
• Mol File: 3739-98-8.mol
• Article Data: 3

Chemical Properties

• Melting Point: 185 °C
• Boiling Point: °Cat760mmHg
• Flash Point: °C
• Appearance: /
• Density: g/cm³
• Sensitive: Moisture & Light Sensitive
• BRN: 4070136
• CAS DataBase Reference: (TRIMETHYLSILYLMETHYL)TRIPHENYLPHOSPHONIUM IODIDE(CAS DataBase Reference)
• NIST Chemistry Reference: (TRIMETHYLSILYLMETHYL)TRIPHENYLPHOSPHONIUM IODIDE(3739-98-8)
• EPA Substance Registry System: (TRIMETHYLSILYLMETHYL)TRIPHENYLPHOSPHONIUM IODIDE(3739-98-8)

Safety Data

• Statements: 36/37/38
• Safety Statements: 26-36
• Hazardous Substances Data: 3739-98-8(Hazardous Substances Data)

Usage

General Description

(TRIMETHYLSILYLMETHYL)TRIPHENYLPHOSPHONIUM IODIDE is a chemical compound with the molecular formula C22H27IPS. It is a quaternary phosphonium salt, consisting of a trimethylsilylmethyl group attached to a triphenylphosphonium cation, and is commonly used as a Lewis acid catalyst in organic synthesis. It is a white to off-white solid with a molecular weight of 506.36 g/mol and is soluble in polar solvents such as ethanol and acetonitrile. (TRIMETHYLSILYLMETHYL)TRIPHENYLPHOSPHONIUM IODIDE has applications in various organic reactions, including the synthesis of pharmaceuticals and agrochemicals, and is known for its ability to facilitate reactions such as the formation of carbon-carbon and carbon-oxygen bonds.

InChI:InChI=1/C22H26PSi.HI/c1-24(2,3)19-23(20-13-7-4-8-14-20,21-15-9-5-10-16-21)22-17-11-6-12-18-22;/h4-18H,19H2,1-3H3;1H/q+1;/p-1

Upstream product

• 16029-98-4 trimethylsilyl iodide 
• 19493-09-5 Methylenetriphenylphosphorane 
• 4206-67-1 iodo(trimethylsilyl)methane 
• 1779-49-3 Methyltriphenylphosphonium bromide 
• 603-35-0 triphenylphosphine 

Downstream Products

• 3740-01-0 <1-Trimethylsilyl-ethyl>-triphenyl-phosphoniumiodid 
• 1253394-12-5 4-trifluoromethyl-1-methyl-2-phenyl-1H-pyrrole 
• 1439-36-7 1-triphenylphosphoranylidene-2-propanone 
• 1777-53-3 1-(p-tolyl)-2-(triphenylphosphoranylidene)ethanone 
• 20913-05-7 (Benzoylmethylene)triphenylphosphorane 
• 144189-85-5 (Bis-trimethylsilanyl-methyl)-triphenyl-phosphonium; iodide 
• 144038-11-9 1-{[2-Oxo-3-(triphenyl-λ⁵-phosphanylidene)-propyl]-phenyl-amino}-3-(triphenyl-λ⁵-phosphanylidene)-propan-2-one 
• 141957-47-3 NSC 668360 
• 144038-07-3 2-(Triphenyl-λ⁵-phosphanylidene)-1-{(1R,2S)-2-[2-(triphenyl-λ⁵-phosphanylidene)-acetyl]-cyclohexyl}-ethanone 
• 144038-12-0 1-{(1R,3S)-1,2,2-Trimethyl-3-[2-(triphenyl-λ⁵-phosphanylidene)-acetyl]-cyclopentyl}-2-(triphenyl-λ⁵-phosphanylidene)-ethanone 
• 144038-08-4 2-(Triphenyl-λ⁵-phosphanylidene)-1-{(1R,6S)-6-[2-(triphenyl-λ⁵-phosphanylidene)-acetyl]-cyclohex-3-enyl}-ethanone 
• 144038-13-1 1-(Triphenyl-λ⁵-phosphanylidene)-3-{2-[2-(triphenyl-λ⁵-phosphanylidene)-acetyl]-phenyl}-propan-2-one 
• 144038-06-2 2-(Triphenyl-λ⁵-phosphanylidene)-1-{(1R,2S)-2-[2-(triphenyl-λ⁵-phosphanylidene)-acetyl]-cyclobutyl}-ethanone 
• 144038-10-8 1-[2-Oxo-3-(triphenyl-λ⁵-phosphanylidene)-propylsulfanyl]-3-(triphenyl-λ⁵-phosphanylidene)-propan-2-one 

Relevant articles and documents

Ylide-Functionalized Phosphines: Strong Donor Ligands for Homogeneous Catalysis

Phosphines are important ligands in homogenous catalysis and have been crucial for many advances, such as in cross-coupling, hydrofunctionalization, or hydrogenation reactions. Herein we report the synthesis and application of a novel class of phosphines bearing ylide substituents. These phosphines are easily accessible via different synthetic routes from commercially available starting materials. Owing to the extra donation from the ylide group to the phosphorus center the ligands are unusually electron-rich and can thus function as strong electron donors. The donor capacity surpasses that of commonly used phosphines and carbenes and can easily be tuned by changing the substitution pattern at the ylidic carbon atom. The huge potential of ylide-functionalized phosphines in catalysis is demonstrated by their use in gold catalysis. Excellent performance at low catalyst loadings under mild reaction conditions is thus seen in different types of transformations.

Synthesis and reactions of [1-(trialkylsilyl)alkylidene]triphenylphosphoranes

Alkylidenetriphenylphosphoranes 1 react with trialkyl halosilanes 2 to afford silylated alkylidenephosphoranes 5, which can be converted to acylated alkylidenephosphoranes 8 and 10 by trimethylsilyl carboxylates 6 or carboxylic anhydrides 10. Bis(acylalkylidenephosphoranes) 13-15 are available from 5 and bis(trimethylsilyl) dicarboxylates 12 or cyclic or polymeric anhydrides 16, 17.