Dispersion polymerization: Precipitation polymerization in which monomer(s), initiator(s), and colloid stabilizer(s) are dissolved in a solvent forming initially a homogeneous system that produces polymer and results in the formation of polymer particles.
Note: The process usually results in polymer particles of colloidal dimensions. [1]
In polymer science, dispersion polymerization is a heterogeneous polymerization process carried out in the presence of a polymeric stabilizer in the reaction medium. Dispersion polymerization is a type of precipitation polymerization, meaning the solvent selected as the reaction medium is a good solvent for the monomer and the initiator, but is a non-solvent for the polymer.[2] As the polymerization reaction proceeds, particles of polymer form, creating a non-homogeneous solution. In dispersion polymerization these particles are the locus of polymerization, with monomer being added to the particle throughout the reaction. In this sense, the mechanism for polymer formation and growth has features similar to that of emulsion polymerization.[3] With typical precipitation polymerization, the continuous phase (the solvent solution) is the main locus of polymerization, which is the main difference between precipitation and dispersion.
Polymerization mechanismedit
SEM-Picture of PMMA-particles fabricated by dispersion polymerization after drying / removal of the organic liquid phase (cyclohexane)
At the onset of polymerization, polymers remain in solution until they reach a critical molecular weight (MW), at which point they precipitate.[4] These initial polymer particles are unstable and coagulate with other particles until stabilized particles form. After this point in the polymerization, growth only occurs by addition of monomer to the stabilized particles.[4] As the polymer particles grow, stabilizer (or dispersant) molecules attach covalently to the surface. These stabilizer molecules are generally graft or block copolymers, and can be preformed or can form in situ during the reaction.[2] Typically, one side of the stabilizer copolymer has an affinity for the solvent while the other side has an affinity for the polymer particle being formed. These molecules play a crucial role in dispersion polymerization by forming a “hairy layer” around the particles that prevents particle coagulation.[4] This controls size and colloidal stability of the particles in the reaction system. The driving force for the particle separation is steric hindrance between the outward-facing tails of the stabilizer layers.[4]
Dispersion polymerization can produce nearly monodisperse polymer particles of 0.1–15 micrometers (μm). This is important because it fills the gap between particle size generated by conventional emulsion polymerization (0.006–0.7 μm) in batch process and that of suspension polymerization (50–1000 μm).[4]
Applicationsedit
Particles produced by dispersion polymerization are used in a wide variety of applications. Toners, instrument calibration standards, chromatography column packing materials, liquid crystal display spacers, and biomedical and biochemical analysis all use these micron-size monodisperse particles, particles which were hard to come by before the development of dispersion polymerization methods.[4] The dispersions are also used as surface coatings. Unlike solution coatings, dispersion coatings have viscosities that are independent of polymer MW. The viscosities of dispersions are advantageously lower than those of solutions with practical polymer levels.[4] This allows for easier application of the coating.
One dispersion polymerization system being studied is the use of supercritical liquid carbon dioxide (scCO2) as a solvent.[5] Because of its unique solvent properties, supercritical CO2 is an ideal medium for dispersion polymerization for many soluble-monomer with insoluble-polymer systems. For example, polymers can be separated by releasing the high pressure under which the scCO2 is held. This process is more efficient than typical drying processes.[5] Also, the principles of dispersion polymerization with scCO2 follows principles of green chemistry: low solvent toxicity, low waste, efficient atom economy, and avoidance of purification steps.[5]
Referencesedit
^Slomkowski, Stanislaw; Alemán, José V.; Gilbert, Robert G.; Hess, Michael; Horie, Kazuyuki; Jones, Richard G.; Kubisa, Przemyslaw; Meisel, Ingrid; Mormann, Werner; Penczek, Stanisław; Stepto, Robert F. T. (2011). (PDF). Pure and Applied Chemistry. 83 (12): 2229–2259. doi:10.1351/PAC-REC-10-06-03. S2CID 96812603. Archived from the original (PDF) on 2013-10-20. Retrieved 2017-07-14.
^ abRudin, A.; Choi, P. (2013). The Elements of Polymer Science and Engineering (3rd ed.). Academic Press. pp. 427–429.
^Matyjaszewski, K.; Davis, T. P. (2002). Handbook of Radical Polymerization. John Wiley and Sons. p. 306.
^ abcdefgKawaguchi, S; Ito, K. (2005). "Dispersion Polymerization". Adv Polym Sci. Advances in Polymer Science. 175: 299–328. doi:10.1007/b100118. ISBN978-3-540-22923-0.
^ abcJennings, J.; Beija, M.; Kennon, Jeremy T.; et al. (2013). "Advantages of Block Copolymer Synthesis by RAFT-Controlled Dispersion Polymerization in Supercritical Carbon Dioxide". Macromolecules. 46 (17): 6843–6851. Bibcode:2013MaMol..46.6843J. doi:10.1021/ma401051e.
January 01, 1970
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IUPAC definition Dispersion polymerization Precipitation polymerization in which monomer s initiator s and colloid stabilizer s are dissolved in a solvent forming initiallya homogeneous system that produces polymer and results in the formation ofpolymer particles Note The process usually results in polymer particles of colloidal dimensions 1 In polymer science dispersion polymerization is a heterogeneous polymerization process carried out in the presence of a polymeric stabilizer in the reaction medium Dispersion polymerization is a type of precipitation polymerization meaning the solvent selected as the reaction medium is a good solvent for the monomer and the initiator but is a non solvent for the polymer 2 As the polymerization reaction proceeds particles of polymer form creating a non homogeneous solution In dispersion polymerization these particles are the locus of polymerization with monomer being added to the particle throughout the reaction In this sense the mechanism for polymer formation and growth has features similar to that of emulsion polymerization 3 With typical precipitation polymerization the continuous phase the solvent solution is the main locus of polymerization which is the main difference between precipitation and dispersion Polymerization mechanism edit nbsp SEM Picture of PMMA particles fabricated by dispersion polymerization after drying removal of the organic liquid phase cyclohexane At the onset of polymerization polymers remain in solution until they reach a critical molecular weight MW at which point they precipitate 4 These initial polymer particles are unstable and coagulate with other particles until stabilized particles form After this point in the polymerization growth only occurs by addition of monomer to the stabilized particles 4 As the polymer particles grow stabilizer or dispersant molecules attach covalently to the surface These stabilizer molecules are generally graft or block copolymers and can be preformed or can form in situ during the reaction 2 Typically one side of the stabilizer copolymer has an affinity for the solvent while the other side has an affinity for the polymer particle being formed These molecules play a crucial role in dispersion polymerization by forming a hairy layer around the particles that prevents particle coagulation 4 This controls size and colloidal stability of the particles in the reaction system The driving force for the particle separation is steric hindrance between the outward facing tails of the stabilizer layers 4 Dispersion polymerization can produce nearly monodisperse polymer particles of 0 1 15 micrometers mm This is important because it fills the gap between particle size generated by conventional emulsion polymerization 0 006 0 7 mm in batch process and that of suspension polymerization 50 1000 mm 4 Applications editParticles produced by dispersion polymerization are used in a wide variety of applications Toners instrument calibration standards chromatography column packing materials liquid crystal display spacers and biomedical and biochemical analysis all use these micron size monodisperse particles particles which were hard to come by before the development of dispersion polymerization methods 4 The dispersions are also used as surface coatings Unlike solution coatings dispersion coatings have viscosities that are independent of polymer MW The viscosities of dispersions are advantageously lower than those of solutions with practical polymer levels 4 This allows for easier application of the coating One dispersion polymerization system being studied is the use of supercritical liquid carbon dioxide scCO2 as a solvent 5 Because of its unique solvent properties supercritical CO2 is an ideal medium for dispersion polymerization for many soluble monomer with insoluble polymer systems For example polymers can be separated by releasing the high pressure under which the scCO2 is held This process is more efficient than typical drying processes 5 Also the principles of dispersion polymerization with scCO2 follows principles of green chemistry low solvent toxicity low waste efficient atom economy and avoidance of purification steps 5 References edit Slomkowski Stanislaw Aleman Jose V Gilbert Robert G Hess Michael Horie Kazuyuki Jones Richard G Kubisa Przemyslaw Meisel Ingrid Mormann Werner Penczek Stanislaw Stepto Robert F T 2011 Terminology of polymers and polymerization processes in dispersed systems IUPAC Recommendations 2011 PDF Pure and Applied Chemistry 83 12 2229 2259 doi 10 1351 PAC REC 10 06 03 S2CID 96812603 Archived from the original PDF on 2013 10 20 Retrieved 2017 07 14 a b Rudin A Choi P 2013 The Elements of Polymer Science and Engineering 3rd ed Academic Press pp 427 429 Matyjaszewski K Davis T P 2002 Handbook of Radical Polymerization John Wiley and Sons p 306 a b c d e f g Kawaguchi S Ito K 2005 Dispersion Polymerization Adv Polym Sci Advances in Polymer Science 175 299 328 doi 10 1007 b100118 ISBN 978 3 540 22923 0 a b c Jennings J Beija M Kennon Jeremy T et al 2013 Advantages of Block Copolymer Synthesis by RAFT Controlled Dispersion Polymerization in Supercritical Carbon Dioxide Macromolecules 46 17 6843 6851 Bibcode 2013MaMol 46 6843J doi 10 1021 ma401051e Retrieved from https en wikipedia org w index php title Dispersion polymerization amp oldid 1223260775, wikipedia, wiki, book, books, library,
