Green Synthesis of Dichlorophenylphosphine Sulfide Using Chloroaluminate Ionic Liquids as a Catalyst

“…The densities of DCPPS calculated from eq 2 at (293.15 and 298.15) K are (1.3947 and 1.3898) g‚cm -3 , which are in good agreement with the literature values of 1.4042 g‚cm -3 at 293.15 K 3 and 1.390 g‚cm -3 at 298.15 K. 2 While the viscosity data over a temperature range of (303.16 to 423.40) K were fitted to the Andrade equation, no literature values are available.…”

“…Apparatus for the measurement of vapor pressure: 1, equilibrium cell; 2, condenser; 3, temperature indicator; 4, thermoregulator; 5, agitator blade; 6, to mercury pressure gauge; 7, buffer bottle; 8, nitrogen cylinder; 9, to vacuum pump; 10, thermostat bath. F/g‚cm -3 ) 1.372 + 1.130 × 10 -3 (T/K) -3.590 × 10 -6 (T/K) 2 (2) ln(η/mPa‚S) ) -4.346 + 1697/(T/K)…”

“…Chemicals. DCPPS was synthesized from PCl 3 , benzene, and sulfur in our laboratory following the procedure described by Wang et al 2 Then it was distilled under reduced pressure (2.67 kPa). The purity of DCPPS after distillation was 99.9 % (mass) determined by a gas chromatography test.…”

“…Dichlorophenylphosphine sulfide (DCPPS, C 6 H 5 PSCl 2 ) is an intermediate for the production of bis(4-carboxyphenyl)phenyl phosphine oxide, a halogen-free flame-retarding monomer that can be chemically incorporated into various macromolecules to produce flame-retarding polymers . In general, DCPPS is widely used in the preparation of flame retardants, insecticides, and plasticizers …”

“…1 In general, DCPPS is widely used in the preparation of flame retardants, insecticides, and plasticizers. 2 Although commercially available, the density, viscosity, and vapor pressure of DCPPS in a range of operating temperatures, which are very important and necessary for the design of industrial processes, are not available in the literature. Up to now, the density value of DCPPS at 293.15 K (F ) 1.4042 g‚cm -3 ) 3 and 298.15 K (F ) 1.390 g‚cm -3 ) 2 were reported.…”

Density, Viscosity, and Vapor Pressure of Dichlorophenylphosphine Sulfide

“…The densities of DCPPS calculated from eq 2 at (293.15 and 298.15) K are (1.3947 and 1.3898) g‚cm -3 , which are in good agreement with the literature values of 1.4042 g‚cm -3 at 293.15 K 3 and 1.390 g‚cm -3 at 298.15 K. 2 While the viscosity data over a temperature range of (303.16 to 423.40) K were fitted to the Andrade equation, no literature values are available.…”

“…Apparatus for the measurement of vapor pressure: 1, equilibrium cell; 2, condenser; 3, temperature indicator; 4, thermoregulator; 5, agitator blade; 6, to mercury pressure gauge; 7, buffer bottle; 8, nitrogen cylinder; 9, to vacuum pump; 10, thermostat bath. F/g‚cm -3 ) 1.372 + 1.130 × 10 -3 (T/K) -3.590 × 10 -6 (T/K) 2 (2) ln(η/mPa‚S) ) -4.346 + 1697/(T/K)…”

“…Chemicals. DCPPS was synthesized from PCl 3 , benzene, and sulfur in our laboratory following the procedure described by Wang et al 2 Then it was distilled under reduced pressure (2.67 kPa). The purity of DCPPS after distillation was 99.9 % (mass) determined by a gas chromatography test.…”

“…Dichlorophenylphosphine sulfide (DCPPS, C 6 H 5 PSCl 2 ) is an intermediate for the production of bis(4-carboxyphenyl)phenyl phosphine oxide, a halogen-free flame-retarding monomer that can be chemically incorporated into various macromolecules to produce flame-retarding polymers . In general, DCPPS is widely used in the preparation of flame retardants, insecticides, and plasticizers …”

“…1 In general, DCPPS is widely used in the preparation of flame retardants, insecticides, and plasticizers. 2 Although commercially available, the density, viscosity, and vapor pressure of DCPPS in a range of operating temperatures, which are very important and necessary for the design of industrial processes, are not available in the literature. Up to now, the density value of DCPPS at 293.15 K (F ) 1.4042 g‚cm -3 ) 3 and 298.15 K (F ) 1.390 g‚cm -3 ) 2 were reported.…”

Density, Viscosity, and Vapor Pressure of Dichlorophenylphosphine Sulfide

Chloroaluminate ionic liquid‐modified silica‐coated magnetic nanoparticles: Efficient and reusable catalyst for selective synthesis of mono‐ and bis‐dihydropyrano[3,2‐b]chromenediones

Synthesis of organophosphorus compounds using ionic liquids