Diethylaluminum chloride-co-initiated cationic polymerization of isoprene: dramatic effect of the nature of alkyl halide on the properties of synthesized polymers
Victor A. Rozentsvet, Daria M. Ulyanova, Nelly A. Sablina, Sergei V. Kostjuk, Nina V. Sidorenko, Peter M. Tolstoy
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引用次数: 0
Abstract
AbstractThe cationic polymerization of isoprene using alkyl halide/Et2AlCl initiating system (alkyl halide: tert-butyl chloride, tert-butyl bromide, 2-chloro-2-methylbutane and isopropyl chloride) at different temperatures has been studied. It was shown for the first time that using of tertiary alkyl halide in conjunction with Et2AlCl allowed to synthesize fully soluble solid thermoplastic polymers with reduced unsaturation (41–48 mol%) as well as relatively high glass transition temperature (52–60°С) and softening point (102–128°С). The substitution of tertiary alkyl halides on the secondary one (isopropyl chloride) results in the obtaining of cross-linked polymers due to the low activity of isopropyl chloride in chain transfer to alkyl halide. It was found that alkyl halide nature, the ratio of alkyl halide to Et2AlCl, duration and temperature of the polymerization of isoprene have dramatic effect on the unsaturation of synthesized polymers as well as their molecular weight, polydispersity, physical and chemical properties.Keywords: Alkyl halidescationic polymerizationdiethylaluminum chlorideisoprenesolid thermoplastic polymers Disclosure statementThe authors declare no conflict of interest.Author contributionsVictor A. Rozentsvet: Conceptualization, supervision, methodology, project administration, resources, writing-original draft, writing-review and editing. Daria M. Ulyanova: Investigation, formal analysis, data curation. Nelly A. Sablina: Investigation, data curation, software, visualization. Sergei V. Kostjuk: Formal analysis, writing-original draft, writing-review and editing. Nina V. Sidorenko: Investigation. Peter M. Tolstoy: Investigation, methodology, formal analysis.Additional informationFundingThe work was performed on the theme of research No. 1021060107217-0-1.6.19 of Samara Federal Research Scientific Center of Russian Academy of Science, Institute of Ecology of Volga River Basin of Russian Academy of Science and State Task of the Russian Federation No. АААА-А19-119091190094. This work is also partially supported by State Program for Scientific Research of Belarus “Chemical processes, reagents and technologies, bioregulators and bioorganic chemistry” (project 2.1.01.03).
摘要研究了在不同温度下,以烷基卤化物/乙二氯化铝引发体系(烷基卤化物:氯化叔丁基、溴化叔丁基、2-氯-2-甲基丁烷和氯异丙基)阳离子聚合异戊二烯的反应。首次证明叔烷基卤化物与Et2AlCl结合可以合成完全可溶的固体热塑性聚合物,其不饱和度降低(41-48 mol%),玻璃化转变温度(52-60°С)和软化点(102-128°С)相对较高。叔烷基卤化物取代仲烷基卤化物(异丙基氯),由于异丙基氯向烷基卤化物的链转移活性低,得到交联聚合物。结果表明,烷基卤化物的性质、烷基卤化物与乙二铝的比例、异戊二烯聚合的时间和温度对聚合产物的不饱和性、分子量、多分散性、理化性质等均有显著影响。关键词:卤代烷基阳离子聚合二乙基氯代铝异戊二烯固体热塑性聚合物披露声明作者声明无利益冲突。作者:victor A. Rozentsvet:概念、监督、方法、项目管理、资源、写作-原稿、写作-审查和编辑。Daria M. Ulyanova:调查,形式分析,数据管理。Nelly A. Sablina:调查,数据管理,软件,可视化。Sergei V. Kostjuk:形式分析,写作-原稿,写作-审查和编辑。尼娜·西多连科:调查。彼得·托尔斯泰:调查,方法论,形式分析。本研究由俄罗斯科学院萨马拉联邦研究科学中心(1021060107217-0-1.6.19)、俄罗斯科学院伏尔加河流域生态研究所和俄罗斯联邦国家课题(1021060107217-0-1.6.19)资助。ААААА19 - 119091190094。白俄罗斯国家科学研究计划“化学过程、试剂和技术、生物调节剂和生物有机化学”(项目2.1.01.03)。
期刊介绍:
Journal of Macromolecular Science, Part A: Pure and Applied Chemistry (JMS-PAC) is a necessary resource for academic and industrial scientists and engineers whose interests center on both synthetic and naturally occurring polymers and their applications.