Miniemulsion polymerization templates: A systematic comparison between low energy emulsification (Near-PIT) and ultrasound emulsification methods

[Display omitted] ▶ A low-energy emulsification method has been designed and showed to allow the preparation of polymeric particles smaller than usual miniemulsification methods (about 75nm). ▶ The performances of Near-PIT procedure were comparable to ultrasound emulsification. ▶ Contrary to usual P...

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Published inColloids and surfaces. A, Physicochemical and engineering aspects Vol. 374; no. 1-3; pp. 134 - 141
Main Authors Galindo-Alvarez, Johanna, Boyd, David, Marchal, Philippe, Tribet, Christophe, Perrin, Patrick, Marie-Bégué, Emmanuelle, Durand, Alain, Sadtler, Véronique
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier B.V 20.01.2011
Elsevier
Subjects
agitation
Chemical and Process Engineering
Chemistry
coatings
Colloidal state and disperse state
emulsifying
emulsions
Emulsions. Microemulsions. Foams
energy
Engineering Sciences
Exact sciences and technology
General and physical chemistry
heat
Low-energy emulsification method
Miniemulsion polymerization
Nanoemulsion
Nanoparticles
phase transition
Physical and chemical studies. Granulometry. Electrokinetic phenomena
polymerization
polystyrenes
surfactants
temperature
Transitional phase inversion
ultrasonics
Nanoparticles
Miniemulsion polymerization
Transitional phase inversion
Low-energy emulsification method
Nanoemulsion
Agitation
Emulsification
Nanoparticle
Polymerization
Suspension
Surfactant
Free radical
Solid
Template
Ethylene oxide polymer
Emulsion
Energy
Heating
Formulation
Preparation
Styrene polymer
Monomer
Ultrasound
Diameter
PHASE INVERSION TEMPERATURE
AFFINITY INVERSION
STABILITY
EMULSION INVERSION
OIL-WATER SYSTEMS
NANOCAPSULES
NONIONIC SURFACTANTS
NANO-EMULSIONS
NANOPARTICLES
DROP SIZE
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Abstract [Display omitted] ▶ A low-energy emulsification method has been designed and showed to allow the preparation of polymeric particles smaller than usual miniemulsification methods (about 75nm). ▶ The performances of Near-PIT procedure were comparable to ultrasound emulsification. ▶ Contrary to usual PIT methods, the Near-PIT procedure did not imply heating the samples at temperatures higher than PIT. Poly(ethylene oxide)-covered polystyrene nanoparticles were prepared by free radical miniemulsion polymerization after using an original low energy emulsification procedure called Near-PIT method. This procedure consisted in heating the initial monomer emulsion up to a temperature close to the phase inversion temperature (PIT) but lower. The surfactants used were commercial Brij® 78 and Brij® 700 and mixtures of both. The Near-PIT method was showed to allow the preparation of nanoparticle suspensions with average diameters lower than 100nm and solid contents higher than 20wt% while avoiding heating the initial monomer emulsion above PIT like in usual low energy methods. The influences of various formulation and operating parameters were investigated. Finally, the Near-PIT method was compared to other well-known procedures for nanoparticle preparation, miniemulsion polymerization after ultrasound emulsification and macroemulsion polymerization under mechanical agitation. The performances of Near-PIT procedure were comparable to ultrasound emulsification.
AbstractList Poly(ethylene oxide)-covered polystyrene nanoparticles were prepared by free radical miniemulsion polymerization after using an original low energy emulsification procedure called Near-PIT method. This procedure consisted in heating the initial monomer emulsion up to a temperature close to the phase inversion temperature (PIT) but lower. The surfactants used were commercial Brij® 78 and Brij® 700 and mixtures of both. The Near-PIT method was showed to allow the preparation of nanoparticle suspensions with average diameters lower than 100nm and solid contents higher than 20wt% while avoiding heating the initial monomer emulsion above PIT like in usual low energy methods. The influences of various formulation and operating parameters were investigated. Finally, the Near-PIT method was compared to other well-known procedures for nanoparticle preparation, miniemulsion polymerization after ultrasound emulsification and macroemulsion polymerization under mechanical agitation. The performances of Near-PIT procedure were comparable to ultrasound emulsification.
Poly(ethylene oxide)-covered polystyrene nanoparticles were prepared by free radical miniemulsion polymerization after using an original low energy emulsification procedure called Near-PIT method. This procedure consisted in heating the initial monomer emulsion up to a temperature close to the phase inversion temperature (PIT) but lower. The surfactants used were commercial Brij super([registered]) 78 and Brij super([registered]) 700 and mixtures of both. The Near-PIT method was showed to allow the preparation of nanoparticle suspensions with average diameters lower than 100 nm and solid contents higher than 20 wt% while avoiding heating the initial monomer emulsion above PIT like in usual low energy methods. The influences of various formulation and operating parameters were investigated. Finally, the Near-PIT method was compared to other well-known procedures for nanoparticle preparation, miniemulsion polymerization after ultrasound emulsification and macroemulsion polymerization under mechanical agitation. The performances of Near-PIT procedure were comparable to ultrasound emulsification.
Poly(ethylene oxide)-covered polystyrene nanoparticles were prepared by free radical miniemulsion polymerization after using an original low energy emulsification procedure called Near-PIT method. This procedure consisted in heating the initial monomer emulsion up to a temperature close to the phase inversion temperature (PIT) but lower. The surfactants used were commercial Brij (R) 78 and Brij (R) 700 and mixtures of both. The Near-PIT method was showed to allow the preparation of nanoparticle suspensions with average diameters lower than 100 nm and solid contents higher than 20 wt% while avoiding heating the initial monomer emulsion above PIT like in usual low energy methods. The influences of various formulation and operating parameters were investigated. Finally, the Near-PIT method was compared to other well-known procedures for nanoparticle preparation, miniemulsion polymerization after ultrasound emulsification and macroemulsion polymerization under mechanical agitation. The performances of Near-PIT procedure were comparable to ultrasound emulsification
[Display omitted] ▶ A low-energy emulsification method has been designed and showed to allow the preparation of polymeric particles smaller than usual miniemulsification methods (about 75nm). ▶ The performances of Near-PIT procedure were comparable to ultrasound emulsification. ▶ Contrary to usual PIT methods, the Near-PIT procedure did not imply heating the samples at temperatures higher than PIT. Poly(ethylene oxide)-covered polystyrene nanoparticles were prepared by free radical miniemulsion polymerization after using an original low energy emulsification procedure called Near-PIT method. This procedure consisted in heating the initial monomer emulsion up to a temperature close to the phase inversion temperature (PIT) but lower. The surfactants used were commercial Brij® 78 and Brij® 700 and mixtures of both. The Near-PIT method was showed to allow the preparation of nanoparticle suspensions with average diameters lower than 100nm and solid contents higher than 20wt% while avoiding heating the initial monomer emulsion above PIT like in usual low energy methods. The influences of various formulation and operating parameters were investigated. Finally, the Near-PIT method was compared to other well-known procedures for nanoparticle preparation, miniemulsion polymerization after ultrasound emulsification and macroemulsion polymerization under mechanical agitation. The performances of Near-PIT procedure were comparable to ultrasound emulsification.
Author Galindo-Alvarez, Johanna
Tribet, Christophe
Marchal, Philippe
Durand, Alain
Boyd, David
Marie-Bégué, Emmanuelle
Sadtler, Véronique
Perrin, Patrick
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  surname: Sadtler
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Issue 1-3
Keywords Nanoparticles
Miniemulsion polymerization
Transitional phase inversion
Low-energy emulsification method
Nanoemulsion
Agitation
Emulsification
Nanoparticle
Polymerization
Suspension
Surfactant
Free radical
Solid
Template
Ethylene oxide polymer
Emulsion
Energy
Heating
Formulation
Preparation
Styrene polymer
Monomer
Ultrasound
Diameter
PHASE INVERSION TEMPERATURE
AFFINITY INVERSION
STABILITY
EMULSION INVERSION
OIL-WATER SYSTEMS
NANOCAPSULES
NONIONIC SURFACTANTS
NANO-EMULSIONS
NANOPARTICLES
DROP SIZE
Language English
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SSID ssj0004579
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Snippet [Display omitted] ▶ A low-energy emulsification method has been designed and showed to allow the preparation of polymeric particles smaller than usual...
Poly(ethylene oxide)-covered polystyrene nanoparticles were prepared by free radical miniemulsion polymerization after using an original low energy...
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SubjectTerms agitation
Chemical and Process Engineering
Chemistry
coatings
Colloidal state and disperse state
emulsifying
emulsions
Emulsions. Microemulsions. Foams
energy
Engineering Sciences
Exact sciences and technology
General and physical chemistry
heat
Low-energy emulsification method
Miniemulsion polymerization
Nanoemulsion
Nanoparticles
phase transition
Physical and chemical studies. Granulometry. Electrokinetic phenomena
polymerization
polystyrenes
surfactants
temperature
Transitional phase inversion
ultrasonics
Title Miniemulsion polymerization templates: A systematic comparison between low energy emulsification (Near-PIT) and ultrasound emulsification methods
URI https://dx.doi.org/10.1016/j.colsurfa.2010.11.019
https://search.proquest.com/docview/855704975
https://hal.science/hal-00778489
Volume 374
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