Polymer Colloids 1971
DOI: 10.1007/978-1-4684-1920-7_5
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Particle Formation in Polymer Colloids, III: Prediction of the Number of Particles by a Homogeneous Nucleation Theory

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Cited by 205 publications
(38 citation statements)
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“…This theory is indeed a combination of ideas proposed by Fitch et al [39][40][41] and Oganesyan [51] with the difference that the authors consider the surface energy of the particles as an adjustable parameter of the model.…”
Section: Aggregative Nucleation Mechanismmentioning
confidence: 99%
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“…This theory is indeed a combination of ideas proposed by Fitch et al [39][40][41] and Oganesyan [51] with the difference that the authors consider the surface energy of the particles as an adjustable parameter of the model.…”
Section: Aggregative Nucleation Mechanismmentioning
confidence: 99%
“…According to the hypothesis of the formation mechanism of PMP for homogeneous nucleation [27,[35][36][37][38][39][40][41][42], the formation of particles or macromolecules derived from the radicals who have reached the critical length (j ), where they lose solubility and precipitate in the aqueous phase. Further growth of the polymer particles dropped in the water is treated differently.…”
Section: The Mechanism Of Homogeneous Nucleationmentioning
confidence: 99%
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“…The critical oligomeric radical length would increase with the increasing hydrophilicity of polymer (e.g. ~65 for PMMA, [20], ~5 for PS [21]), thus increasing the solubility of growing chains and delaying the precipitation, further, decreasing the particle number in the nucleation period. Therefore, the initial particle size was largest for PMMA latex particles.…”
Section: Effect Of Reaction Kinetics In Aqueous Phase On Particle Coamentioning
confidence: 99%
“…The best-known alternative theory for particle nucleation is that of "homogeneous nucleation" which includes the formation of particle nuclei in the continuous aqueous phase. This theory is proposed by Priest, Roe and Fitch and Tsai, and extended by Hansen and Ugelstad (HUFT) describes the emulsion polymerization of watersolubble monomers such as vinyl acetate and acrylonitrile, their water solubility though low (< 3%) is much in excess of the amount of monomer which may be solubilized by the emulsifier [43][44][45][46][47][48]. It is also the only mechanism which can apply to monomers of low watersolubility, such as styrene, in emulsifier-free reaction system, and also in reaction system which contain a micellizing emulsifier but at such a concentration that is below the CMC.…”
Section: The Initial Stage (Interval I)mentioning
confidence: 99%