Solvent effects on the formation of cross-linking microspheres in γ-irridiated solutions

International Journal of Radiation Applications and Instrumentation. Part C. Radiation Physics and Chemistry Pub Date : 1992-08-01 DOI:10.1016/1359-0197(92)90062-K

Yukihiko Naka , Yukio Yamamoto , Koichiro Hayashi

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引用次数: 1

Abstract

Solvent effects on the formation of cross-linking microspheres by the radiation-induced polymerization are described. Polymerization of some bi- and tri-vinyl monomers in several organic solvents was tested. Diethylene glycol dimethacrylate (2G) is the unique monomer that gives microspheres. The distance between two vinyl groups of monomer molecules is one of the important factors for the formation of microspheres. The comparison of the solvent properties for the preparation of microspheres suggests that the forms of the monomer molecules in the solutions are also important, that is, the stretched form is favorable. Alcohols, except t-butanol, are not favorable as the solvents for the preparation of microspheres because of not only solubility but also an occurrence of the chain transfer reaction. The chain transfer reactions to the solvents and additives interfere with the formation of microspheres.

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溶剂对γ-辐照溶液中交联微球形成的影响

研究了辐射聚合反应中溶剂对交联微球形成的影响。研究了双乙烯基和三乙烯基单体在几种有机溶剂中的聚合反应。二甘醇二甲基丙烯酸酯(2G)是提供微球的独特单体。单体分子中两个乙烯基之间的距离是微球形成的重要因素之一。制备微球的溶剂性质比较表明，单体分子在溶液中的形式也很重要，即拉伸形式是有利的。除t-丁醇外，醇类不适合作为制备微球的溶剂，这不仅是因为醇类的溶解度，而且还因为醇类容易发生链转移反应。与溶剂和添加剂的链转移反应会干扰微球的形成。

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International Journal of Radiation Applications and Instrumentation. Part C. Radiation Physics and Chemistry

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