Metallocene-Catalyzed Polymerization in Nonaqueous Fluorous Emulsion

A nonaqueous organic‐in‐fluorous emulsion applicable for polymerization using water‐sensitive catalysts is presented. With statistical biphasic copolymers based on poly(4‐hydroxystyrene) containing fluorinated and nonfluorinated alkyl side chains, emulsions of hydrocarbons dispersed in perfluorocarb...

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Published inMacromolecular chemistry and physics Vol. 208; no. 13; pp. 1362 - 1369
Main Authors Nenov, Svetlin, Clark Jr, Christopher G., Klapper, Markus, Müllen, Klaus
Format Journal Article Conference Proceeding
LanguageEnglish
Published Weinheim WILEY-VCH Verlag 03.07.2007
WILEY‐VCH Verlag
Wiley
Subjects
Applied sciences
emulsion polymerization
Exact sciences and technology
metallocene catalysts
non-aqueous
Organic polymers
perfluorinated
Physicochemistry of polymers
Polymerization
polyolefins
Preparation, kinetics, thermodynamics, mechanism and catalysts
Fluorine containing copolymer
perfluorinated
Nanoparticle
Emulsifying power
Surfactant polymer
Complex catalyst polymerization
Styrene derivative copolymer
nonaqueous
Etherification
Metallocene
metallocene catalysts
Emulsion polymerization
Olefin polymer
Chloro complex
Polyethylene
Non ionic surfactant
Propylene polymer
Zirconium complex
Experimental study
Styrene(hydroxy) polymer
Random copolymer
Chemical modification
polyolefins
Preparation
Nonaqueous media
Catalyst activity
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Abstract A nonaqueous organic‐in‐fluorous emulsion applicable for polymerization using water‐sensitive catalysts is presented. With statistical biphasic copolymers based on poly(4‐hydroxystyrene) containing fluorinated and nonfluorinated alkyl side chains, emulsions of hydrocarbons dispersed in perfluorocarbons were stabilized. The addition of metallocenes, activated by methylalumoxane (MAO), enabled the polymerization of olefins inside this highly hydrophobic system. High molecular weight polyolefin nanoparticles ($\overline M _{\rm n}$ up to 450 000) of polyethylene and poly(propylene) were synthesized without supporting the catalyst and without reactor fouling. In this diffusion‐controlled process, the sizes of the particles were controlled by the reaction time and the ratio of the emulsifier to solvents.
AbstractList A nonaqueous organic‐in‐fluorous emulsion applicable for polymerization using water‐sensitive catalysts is presented. With statistical biphasic copolymers based on poly(4‐hydroxystyrene) containing fluorinated and nonfluorinated alkyl side chains, emulsions of hydrocarbons dispersed in perfluorocarbons were stabilized. The addition of metallocenes, activated by methylalumoxane (MAO), enabled the polymerization of olefins inside this highly hydrophobic system. High molecular weight polyolefin nanoparticles ($\overline M _{\rm n}$ up to 450 000) of polyethylene and poly(propylene) were synthesized without supporting the catalyst and without reactor fouling. In this diffusion‐controlled process, the sizes of the particles were controlled by the reaction time and the ratio of the emulsifier to solvents.
A nonaqueous organic-in-fluorous emulsion applicable for polymerization using water-sensitive catalysts is presented. With statistical biphasic copolymers based on poly(4-hydroxystyrene) containing fluorinated and nonfluorinated alkyl side chains, emulsions of hydrocarbons dispersed in perfluorocarbons were stabilized. The addition of metallocenes, activated by methylalumoxane (MAO), enabled the polymerization of olefins inside this highly hydrophobic system. High molecular weight polyolefin nanoparticles ( up to 450000) of polyethylene and poly(propylene) were synthesized without supporting the catalyst and without reactor fouling. In this diffusion-controlled process, the sizes of the particles were controlled by the reaction time and the ratio of the emulsifier to solvents. .
Abstract A nonaqueous organic‐in‐fluorous emulsion applicable for polymerization using water‐sensitive catalysts is presented. With statistical biphasic copolymers based on poly(4‐hydroxystyrene) containing fluorinated and nonfluorinated alkyl side chains, emulsions of hydrocarbons dispersed in perfluorocarbons were stabilized. The addition of metallocenes, activated by methylalumoxane (MAO), enabled the polymerization of olefins inside this highly hydrophobic system. High molecular weight polyolefin nanoparticles ( $\overline M _{\rm n}$ up to 450 000) of polyethylene and poly(propylene) were synthesized without supporting the catalyst and without reactor fouling. In this diffusion‐controlled process, the sizes of the particles were controlled by the reaction time and the ratio of the emulsifier to solvents. magnified image
Author Nenov, Svetlin
Klapper, Markus
Müllen, Klaus
Clark Jr, Christopher G.
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  givenname: Christopher G.
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  fullname: Müllen, Klaus
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Issue 13
Keywords Fluorine containing copolymer
perfluorinated
Nanoparticle
Emulsifying power
Surfactant polymer
Complex catalyst polymerization
Styrene derivative copolymer
nonaqueous
Etherification
Metallocene
metallocene catalysts
Emulsion polymerization
Olefin polymer
Chloro complex
Polyethylene
Non ionic surfactant
Propylene polymer
Zirconium complex
Experimental study
Styrene(hydroxy) polymer
Random copolymer
Chemical modification
polyolefins
Preparation
Nonaqueous media
Catalyst activity
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Snippet A nonaqueous organic‐in‐fluorous emulsion applicable for polymerization using water‐sensitive catalysts is presented. With statistical biphasic copolymers...
Abstract A nonaqueous organic‐in‐fluorous emulsion applicable for polymerization using water‐sensitive catalysts is presented. With statistical biphasic...
A nonaqueous organic-in-fluorous emulsion applicable for polymerization using water-sensitive catalysts is presented. With statistical biphasic copolymers...
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SubjectTerms Applied sciences
emulsion polymerization
Exact sciences and technology
metallocene catalysts
non-aqueous
Organic polymers
perfluorinated
Physicochemistry of polymers
Polymerization
polyolefins
Preparation, kinetics, thermodynamics, mechanism and catalysts
Title Metallocene-Catalyzed Polymerization in Nonaqueous Fluorous Emulsion
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Volume 208
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