Effect of stirring on preparation of hollow copolymer particles by alkali/cooling method

Hai-pu Li; M. Okubo; T. Suzuki

doi:10.1007/s11771-009-0094-3

Journal of Central South University ›› 2009, Vol. 16 ›› Issue (4) : 563 -568. DOI: 10.1007/s11771-009-0094-3

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Effect of stirring on preparation of hollow copolymer particles by alkali/cooling method

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Abstract

Hollow particles were prepared by the treatment of styrene-methacrylic acid copolymer particles with alkali/cooling method. The influences of stirring position (in aqueous phase or at the interface of O/W) and stirring speed (90, 110 and 240 r/min) on the formation of hollow particles were investigated. It is found that the soft stirring in aqueous phase at 90 r/min leads to the formation of monohollow particles, while the violent stirring at the interface of O/W and 240 r/min gives non-hollow products. In contrast, the weak stirring in aqueous phase at 110 r/min results in sterically heterogeneous dispersion of methacrylic acid-rich regions within the original particles, and hence the formation of multihollow particles. Further investigation indicates that the change of stirring efficiency provides a way to tune the diffusion behavior of monomer styrene, and therefore influences the distribution of methacrylic acid units in the original particles as well as the morphology of the treated particles.

Keywords

hollow polymer particle / stirring effect / morphology / emulsion copolymerization

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Hai-pu Li, M. Okubo, T. Suzuki. Effect of stirring on preparation of hollow copolymer particles by alkali/cooling method. Journal of Central South University, 2009, 16(4): 563-568 DOI:10.1007/s11771-009-0094-3

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References

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[1]	KOWALSKI A, VOGEL M, BLANKENSHIP R M. Sequential heteropolymer dispersion and a particulate material obtainable therefrom, useful in coating compositions as a thickening and/or opacifying agent: US, 4468498 [P]. 1984.

[2]	KimB. S., KimJ. W., SuhK. D.. Poly (methyl methacrylate) multihollow particles by water in oil in water emulsion polymerization [J]. Journal of Applied Polymer Science, 2000, 76(1): 38-44

[3]	LiuR., MaG. H., MengF. T., SuZ. G.. Preparation of uniform-sized PLA microcapsules by combining Shirasu porous glass membrane emulsification technique and multiple emulsion-solvent evaporation method [J]. Journal of Controlled Release, 2005, 103(1): 31-43

[4]	LiG. L., LiuG., KangE. T., NeohK. G., YangX. L.. pH-responsive hollow polymeric microspheres and concentric hollow silica microspheres from silica-polymer core-shell microspheres [J]. Langmuir, 2008, 24(16): 9050-9055

[5]	MinamiH., OkuboM., OshimaY.. Preparation of cured epoxy resin particles having one hollow by polyaddition reaction [J]. Polymer, 2005, 46(4): 1051-1056

[6]	ItoM., FurukawaY., MinamiH., OkuboM.. Preparation of micrometer-sized, monodisperse, hollow polystyrene/poly(ethylene glycol dimethacrylate) particles with a single hole in the shell [J]. Colloid and Polymer Science, 2008, 286(11): 1335-1341

[7]	MinamiH., KobayashiH., OkuboM.. Preparation of hollow polymer particles with a single hole in the shell by SaPSeP [J]. Langmuir, 2005, 21(13): 5655-5658

[8]	OkuboM., ItoA., HashibaA.. Production of submicron-sized multihollow polymer particles having high transition temperatures by the stepwise alkali/acid method [J]. Colloid and Polymer Science, 1996, 274(5): 428-432

[9]	OkuboM., MinamiH.. Formation mechanism of micron-sized monodispersed polymer particles having a hollow structure [J]. Colloid and Polymer Science, 1997, 275(10): 992-997

[10]	OkuboM., KonishiY., MinamiH.. Production of hallow particles by suspension polymerization of divinylbenzene with nonsolvent [J]. Aqueous Polymer Dispersions, 2004, 124: 54-59

[11]	YinW. S., YatesM. Z.. Effect of interfacial free energy on the formation of polymer microcapsules by emulsification/freeze-drying [J]. Langmuir, 2008, 24(3): 701-708

[12]	OkuboM., ItoA., KanenobuT.. Production of submicron-sized multihollow polymer particles by alkali/cooling method [J]. Colloid and Polymer Science, 1996, 274(8): 801-804

[13]	OkuboM., ItoA., NakamuraM.. Effect of molecular weight on the production of multi-hollow polymer particles by the alkali/cooling method [J]. Colloid and Polymer Science, 1997, 275(1): 82-85

[14]	OkuboM., OkadaM., ShibaK.. Heterogeneity among multihollow polymer particles prepared by the alkali/cooling method under partial neutralization conditions [J]. Colloid and Polymer Science, 2002, 280(9): 822-827

[15]	OkadaM., MatobaT., OkuboM.. Influence of nonionic emulsifier included inside carboxylated polymer particles on the formation of multihollow structure by the alkali/cooling method [J]. Colloid and Polymer Science, 2003, 281(2): 193-197

[16]	OkuboM., ChaiyasatA., YamadaM., SuzukiT., KobayashiH.. Influence of hydrophilic-lipophilic balance of nonionic emulsifiers on emulsion copolymerization of styrene and methacrylic acid [J]. Colloid and Polymer Science, 2007, 285(15): 1755-1761

[17]	ChaiyasatA., KobayashiH., OkuboM.. Incorporation of nonionic emulsifier inside methacrylic polymer particles in emulsion polymerization [J]. Colloid and Polymer Science, 2007, 285(5): 557-562

[18]	OkuboM., SuzukiT., TsudaN.. Estimation of distribution state of carboxyl groups within submicron-sized, carboxylated polymer particle with isothermal titration calorimeter [J]. Colloid and Polymer Science, 2006, 284(11): 1319-1323

[19]	NomuraM., HaradaM., EguchiW., NagataS.. Effect of stirring on the emulsion polymerization of styrene [J]. Journal of Applied Polymer Science, 1972, 16(4): 835-847

[20]	ÖzdeğerE., SudolE. D., El-aasserM. S., KleinA.. Role of mixing in copolymerizations of styrene and n-butyl acrylate [J]. Journal of Applied Polymer Science, 1998, 69: 2277-2289

[21]	RamirezJ. C., Herrera-ordonezJ., Maldonado-TextleH.. Kinetics of the styrene emulsion polymerization above CMC (II): Agitation effect on molecular weight [J]. Polymer Bulletin, 2005, 53(5): 333-337