參考文獻 |
[1] D.Horak, Uniform Polymer Beads of Micrometer Size. Acta Polymer 1996, 47: 20-28.
[2] Y. Dong-Guk, A. Jeong Ho, B. Jin-Young, A. Seong Deok, K. Seung-Youl, S, Kyung-Soo, Negatively Charged Ultrafine Black Particles of P(MMA-co-EGDMA) by Dispersion Polymerization for Electrophoretic Displays. Macromolecules 2005, 38: 7485-7491.
[3] H. Minami, Z. Wang, T. Yamashita, M. Okubo, Thermodynamic Analysis of the Morphology of Monomer-Adsorbed, Cross-linked Polymer Particles Prepared by the Dynamic Swelling Method and Seeded Polymerization. Colloid and Polymer Science 2003, 281: 246-252.
[4] T. Ellingsen, O. Aune, J. Ugelstad, S. Hagen, Monosized Stationary Phases for Chromatography. Journal of Chromatography 1990, 535: 147-161.
[5] T. Camli S, S. Senel, A. Tuncel, Cibacron Blue F3G-A-attached Uni-form and Macroporous Poly(styrene-co-divinylbenzene) Particles for Specific Albumin Adsorption. Journal of Biomaterials Science, Polymer Edition 1999, 10: 875-889.
[6] D. Horak, M. Karpisek, J. Turkova, M. Benes, Hydrazidefunctionalized Poly (2-hydroxyethyl metacrylate) Microspheres for Immobilization of Horseradish Peroxidase. Biotechnol. Prog 1999, 15: 208-215.
[7] I. Kulin L, P. Flodin, T. Ellingsen, J. Ugelstad, Monosized Polymer Particles in Size-exclusion Chromatography: I. Toluene as Solvent. Journal of Chromatography 1990, 514: 1-9.
[8] H. Kawaguchi, Functional Polymer Microspheres. Progress in Polymer Science 2000, 25: 1171-1210.
[9] M. J. Yim, K. W. Paik, Design and Understanding of AnisotropicConductive Films (ACFs) for LCD Packaging. Polymeric Electronics Packaging 1997: 233-242.
[10] Y. S. Eom, J. W. Baek, J. T. Moon, J.D. Nam, J. M. Kim, Characterization of Polymer Matrix and Low Melting Point Solder for Anisotropic Conductive Film. Microelectron. Eng. 2008, 85: 327-331.
[11] C. Ching-Wen, C. Chuh-Yung, Preparation of Monodisperse Polysty-rene Microspheres:effect of Reaction Parameters on Particle For-mation, and Optical Performances of its Diffusive Agent Application. Colloid Polym Sci. 2009, 287:1377-1389.
[12] E. Unsal, T. Camli S, S. Senel, A. Tuncel, Chromatographic Perfor-mance of Monodisperse–Macroporous Particles Produced by“Modified Seeded Polymerization.” I: Effect of Monomer/Seed Latex Ratio. Journal of Applied Polymer Science 2004, 92: 607-618.
[13] F. Gritti, I. Leonardis, J. Abia, G. Guiochon, Physical Properties and Structure of Fne Core–shell Particles Used as Packing Materials for Chromatography. Journal of Chromatography A 2010, 1217: 3819-3843.
[14] 笠井澄,高分子,1993, 42:929
[15] 笠井澄,高分子, 1995, 44:290
[16] K. Zhang, W. Wu, H. Meng, K. Guo, J.-F. Chen, Pickering Emulsion Polymerization: Preparation of Polystyrene/nano-SiO2 Composite Microspheres with Core-shell Structure. Powder Technology 2009, 190: 393-400.
[17] T. Yamamoto, M. Nakayama, Y. Kanda, K. Higashitani, Growth Mechanism of Soap-free Polymerization of Styrene Investigated by AFM. Journal of Colloid and Interface Science 2006, 297: 112-121.
[18] F. Zhang, Y. Ma, L. Liu, and W. Yang, Direct Observations of Three Nucleation/Growth Processes of Charge-Stabilized Dispersion Polymerizations with Varying Water/Methanol Ratios. J. Phys. Chem. 2010, 114: 10970-10978.
[19] N. M. B. Smeets, R. A. Hutchinson, and T. F. L. McKenna, Determina-tion of the Critical Chain Length of Oligomers in Dispersion Polymerization. ACS Macro Lett. 2012, 1: 171-174.
[20] 李仲軒, 「溶脹法製備具交聯結構之高分子均一粒徑微粒子」, 國立中央大學,化學工程與材料工程學系碩士論文(1999)
[21] B. Thomson, A. Rudin, G. Lajoie, Dispersion Copolymerization of Styrene and Divinylbenzene. II. Effect of Crosslinker on Particle Morphology. Journal of Applied Polymer Science 1996, 59: 2009-2028.
[22] J.W. Kim, K.D. Suh, Highly Monodisperse Crosslinked Polystyrene Microparticles by Dispersion Polymerization. Colloid Polym Sci. 1998, 276: 870-878.
[23] D. G. Yu, J. H. An, J. Y. Bae, S. D. Ahn, S. Y. Kang, and K. S. Suh, Negatively Charged Ultrafine Black Particles of P(MMA-co-EGDMA) by Dispersion Polymerization for Electrophoretic Displays. Macromolecules 2005, 38: 748-7491.
[24] J. S. Song and M. A. Winnik, Cross-Linked, Monodisperse, Mi-cron-Sized Polystyrene Particles by Two-Stage Dispersion Polymeri-zation. Macromolecules 2005, 38: 8300-8307.
[25] K. C. Lee, H. A. Wi, Highly Crosslinked Micron-Sized, Monodispersed Polystyrene Particles by Batch Dispersion Polymerization. Journal of Applied Polymer Science 2010, 115: 297-307.
[26] E. A. Grulke, Suspension Polymerization in Encyclopedia of Polymer Science and Engineering, Wiley 1989, 16: 443-473.
[27] Y Zhang, D Rochefort, Comparison of Emulsion and Vibration Nozzle Methods for Microencapsulation of Laccase and Glucose Oxidase by Interfacial Reticulation of Poly(ethyleneimine). J Microencapsul. 2010, 27: 703-713.
[28] T. Nakashima , M. Shimizu, M. Kukizaki, Particle Control of Emulsion by Membrane Emulsification and its Applications. Advanced Drug Delivery Reviews 2000, 45: 47–56.
[29] L. H. Jansson, M. C. Wellons , G. W. Poenhlein , High Swelling of Latex Particles Without the Utilization of Swelling Agents. Journal of Polymer Science: Polymer Letters Edition. 1983, 21: 937-943.
[30] M. Okubo, Z. Wang, E. Ise, H. Minami, Adsorption of Styrene on Mi-cron-sized, Monodisperse, Cross-linked Polymer Particles in a Snowman-shaped state by Utilizing the Dynamic Swelling Method. Colloid and Polymer Science 2001, 279: 976-982.
[31] M. Okubo, E. Ise, T. Yamashita, Synthesis of Greater Than 10-mm-Sized, Monodispersed Polymer Particles by One-step Seeded Polymerization for Highly Monomer-Swollen Polymer Particles Pre-pared Utilizing the Dynamic Swelling Method. Journal of Applied Polymer Science 1999, 74, 278-285.
[32] H. Brian S., N. Donald H., G. Robert G., Seeded Emulsion Polymerization of Styrene. J.C.S. Faraday I, 1980, 76: 1323-1343.
[33] J Ugelstad, Swelling Capacity of Aqueous Dispersions of Oligomer and Polymer Substances and Mixtures Thereof. Makromolekulare Chemie 1978, 179:815-817.
[34] K. C. LEE, H. A. WI, Synthesis of Crosslinked Polystyrene Particles by Seeded Batch Polymerization with Monomer Absorption. Trans. Nonferrous Met. Soc. China 2011, 21: 153-159.
[35] Q. Zhang, Y. Han, W. Wang, T. Song, J. Chang, A Theoretical and Ex-perimental Investigation of The Size Distribution of Polystyrene Mi-crospheres by Seeded Polymerization. Journal of Colloid and Interface Science 2010, 342: 62-67.
[36] Jin-Woong Kim, Kyung-Do Suh, Monodisperse Micron-sized Polysty-rene Particles by Seeded Polymerization: Effect of Seed Crosslinking on Monomer Swelling and Particle Morphology. Polymer 2000, 41: 6181-6188.
[37] Q. Zhang, Y. Han, W. C. Wang, L. Zhang, J. Chang, Preparation of Fuorescent Polystyrene Microspheres by Gradual Solvent Evapora-tion Method. European Polymer Journal 2009, 45: 550-556.
[38] Jin-Woong Kim, Kyung-Do Suh, Monodisperse, full-IPN Structured Polymer Particles in Micron-Sized Range by Seeded Polymerization. Macromol. Chem. Phys. 2001, 202: 621-627.
[39] W. Yang, W. Ming, J. Hu, X. Lu, S. Fu, Morphological Investigations of Crosslinked Polystyrene Microspheres by Seeded Polymerization. Colloid Polym Sci 1998, 276: 655-661.
[40] E. Unsal, S. T. Camli, S. Senel, A. Tuncel, Chromatographic Perfor-mance of Monodisperse–Macroporous Particles Produced by Modified Seeded Polymerization. Journal of Applied Polymer Science 2004, 92: 607-618.
[41] D. Kim, D. Y. Lee, K. Lee, and S. Choe, Effect of Crosslinking Agents on the Morphology of Polymer Particles Produced by One-Step Seeded Polymerization. Macromolecular Research 2009, 17: 250-258.
[42] E. Partouche, D. Waysbort, S. Margel, Surface Modification of Crosslinked Poly(styrene-divinyl benzene) Micrometer-sized Particles of Narrow Size Distribution by Ozonolysis. Journal of Colloid and Interface Science 2006, 294: 69-78.
[43] M. Mingliang, Z. Qiuyu, Z. Xingbo, X. Hailong, Preparation of Monodisperse Large-Size Cross-Linked P(GMA-St-EGDMA) Micro-spheres by Two-Step Swelling Polymerization. Software Engineering and Knowledge Engineering 2012, 162: 853-861.
[44] Z. Shiva, Novel Application of Decalin and Methyl-β-cyclodextrin in the Activated Seed Swelling Technique. J Polym Res2013,20:103-109.
[45] J. W Kim, J. H Ryu, K. D Suh, Monodisperse Micron-Sized Macroporous Poly(styrene-co-divinylbenzene) Particles by Seeded Polymerization. Colloid Polym Sci 2001, 279:146-152.
[46] J. Ugelstad, K.H. Kaggerud, F.K. Hansen, A. Berge, Absorption of low molecular weight compounds in aqueous dispersions of poly-mer-oligomer particles, 2. A two step swelling process of polymer particles giving an enormous increase in absorption capacity. Makromolekulare Chemie, 1979, 180: 737-744.
[47] 侯昱瑋, 「二階段溶脹法製備具交聯結構之均一粒徑微米球」, 國立中央大學,化學工程與材料工程學系碩士論文(2012)
[48] J. Aguiar, P. Carpena, J.A. Molina-Bolívar, C. Carnero Ruiz, On the Deter-mination of the Critical Micelle Concentration by the Pyrene 1:3 Ra-tio Method. Journal of Colloid and Interface Science 2003, 258:116-122.
[49] N Grassie, G Scott. Polymer Degradation and Stabilization.Cambridge: Cambridge University Press, 1985. p. 24-28.
[50] F.M. Uhl, G.F. Levchik, S.V. Levchik, C. Dick, J. J. Liggat, C.E. Snape, C.A. Wilkie, The Thermal Stability of Cross-linked Polymers: Methyl Methacrylate with Divinylbenzene and Styrene with Dimethacrylates. Polymer Degradation and Stability 2001, 71: 317-325.
[51] Galina F. Levchik, Kun Si, Sergei V. Levchik, G. Camino, Charles A. Wilkie, The Correlation between Cross-linking and Thermal Stability: Cross-linked Polystyrenes and Polymethacrylates. Polymer Degradation and Stability 1999, 65: 395-403. |