Nonequilibrium morphology development in seeded emulsion polymerization. IV. Influence of chain transfer agent

Stubb, Jeffrey M.; Sundberg, Donald C.

doi:10.1002/app.23643

Cited by 20 publications

(7 citation statements)

References 39 publications

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“…These effects will now be discussed. The work of Sundberg and co-workers in this area is seminal ,− and will be followed here in descriptive (rather than mathematical) terms in order to convey the important concepts.…”

Section: Particle Morphologymentioning

confidence: 99%

Fundamentals of Emulsion Polymerization

2020

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A comprehensive overview of the fundamentals of emulsion polymerization and related processes is presented with the object of providing theoretical and practical understanding to researchers considering use of these methods for synthesis of polymer colloids across a wide range of applications. Hence, the overview has been written for a general scientific audience with no prior knowledge assumed. Succinct introductions are given to key topics of background science to assist the reader. Importance is placed on ensuring mechanistic understanding of these complex polymerizations and how the processes can be used to create polymer colloids that have particles with well-defined properties and morphology. Mathematical equations and associated theory are given where they enhance understanding and learning and where they are particularly useful for practical application. Practical guidance also is given for new researchers so that they can begin using the various processes effectively and in ways that avoid common mistakes.

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Section: Particle Morphologymentioning

confidence: 99%

Fundamentals of Emulsion Polymerization

2020

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“…This is a challenging goal because the morphology is created during the polymerization as a result of complex interactions between kinetics and thermodynamics involved in the polymerization. − Currently, the production strategies used commercially are largely based on extensive experimental work guided by a rich literature on the effect of the operation variables on the final particle morphology. ,,,− However, it is open to discussion whether this approach would be sufficient in a search for a globally optimal strategy. Thus, by use of a mathematical model for the process, it has been recently demonstrated in silico that the optimal strategies may involve complex profiles of temperature and monomer feed rate, which are unlikely to be obtained by the currently used approach.…”

Section: Introductionmentioning

confidence: 99%

Coupling HAADF-STEM Tomography and Image Reconstruction for the Precise Characterization of Particle Morphology of Composite Polymer Latexes

et al. 2019

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The performance of waterborne polymer–polymer composite materials strongly depends on the particle morphology, but the precise quantitative characterization of complex morphologies is a long-standing problem. In this work, high angle annular dark-field scanning transmission electron microscopy (HAADF-STEM) has been used to obtain a 3D quantitative characterization of the morphology of polymer–polymer particles. The potential of this technique was demonstrated in the study of the effect of process variables (T g of the seed, type of initiator, and instantaneous conversion of the monomer) on particle morphology during the semicontinuous emulsion copolymerization of styrene and butyl acrylate on methyl methacrylate-rich seeds. This analysis unveiled new mechanisms of morphology development.

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“…The molecular weight of the polymer is one of the crucial parameters in determining the nonequilibrium morphology of composite particles during seeded emulsion polymerization. The molecular weight of the polymer determines the diffusion rate of the polymers formed in the second polymerization steps at a certain weight fraction of polymer, and this affects the final particle morphology. − However, the effect of molecular weight on the thermodynamic equilibrium morphology has been disregarded so far. The molecular weight barely affects the interfacial tension between polymer and aqueous phases when the molecular weight of polymer is higher than approximately 2.5 × 10 3 .…”

Section: Introductionmentioning

confidence: 99%

Effect of Molecular Weight on the Morphology of Polystyrene/Poly(methyl methacrylate) Composite Particles Prepared by the Solvent Evaporation Method

et al. 2008

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The effect of molecular weight on the morphology of polystyrene (PS)/poly(methyl methacrylate) (PMMA) composite particles was investigated. PS/PMMA composite particles with different molecular weights (M*=MwPS+MwPMMA)/2 approximately 2x10(4)-1x10(6) g.mol(-1)) were prepared by the release of toluene (T) from PS/PMMA/T (1/1/24, w/w/w) droplets dispersed in an aqueous solution of polyoxyethylene nonylphenyl ether nonionic surfactant (Emulgen 911). As T evaporated, the spherical droplets phase separated, resulting in snowmanlike composite particles with Janus morphology. The nonspherical shape was closely related to the morphology, which depended on M*. The interfacial tension between the phase-separated PS and PMMA phases increased with an increase in M*, and this would allow the formation of the snowmanlike shape to decrease the interfacial area between the PS and the PMMA phases.

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Nonequilibrium morphology development in seeded emulsion polymerization. IV. Influence of chain transfer agent

Cited by 20 publications

References 39 publications

Fundamentals of Emulsion Polymerization

Fundamentals of Emulsion Polymerization

Coupling HAADF-STEM Tomography and Image Reconstruction for the Precise Characterization of Particle Morphology of Composite Polymer Latexes

Effect of Molecular Weight on the Morphology of Polystyrene/Poly(methyl methacrylate) Composite Particles Prepared by the Solvent Evaporation Method

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