Synthesis of poly (vinylcatechols)†

William H. Daly, Saad Moulay
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引用次数: 16

Abstract

Five vinylcatechol precursors have been synthesized by either alcohol dehydration or Wittig coupling techniques. Dehydration of the appropriate sec-phenethyl alcohol is the most efficient synthetic approach: the following monomers (yields) are reported: 5-vinyl-1,3-benzodioxole, I (63%); 3,4-dimethoxystyrene, II (45%); 2,3-dimethoxystyrene, III (85%);6-vinyl-1,4-benzodioxane.IV(65%); and4-vinyl-l,3-benzodioxole, V(50%). The monomers can be converted by free-radical techniques to polymers with molecular weights up to 95,000. Monomers I, II, IV, and V polymerized in the presence of stannic chloride; monomers I, III, and IV yielded polymers upon treatment with butyllithium. With the exception of poly IV, the blocking groups can be removed by treatment with boron trichloride followed by methanolysis to liberate poly(3-vinyl- or 4-vinylcatechol). Suprisingly, the stability of the catechol polymers depends upon the substituent distribution; poly(3-vinylcatechol) is more stable than any polycatechol previously reported. It is soluble in methanol, autooxidizes very slowly, but can be oxidized by ceric ammonium nitrate to poly(3-vinyl-1,2-benzoquinone).

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聚乙烯基儿茶酚的合成
采用醇脱水法和Wittig偶联法合成了5种乙烯基儿茶酚前体。适当的仲苯乙醇脱水是最有效的合成方法:报道了以下单体(产率):5-乙烯基-1,3-苯二唑,I (63%);3,4-二甲氧基苯乙烯,II (45%);2,3-二甲氧基苯乙烯III(85%);6-乙烯基-1,4-苯二氧嘧啶iv (65%);and4-vinyl-l 3-benzodioxole, V(50%)。单体可以通过自由基技术转化为分子量高达95000的聚合物。单体I、II、IV和V在氯化锡存在下聚合;单体I、III和IV经丁基锂处理后生成聚合物。除聚IV外,阻断基团可通过三氯化硼处理,然后甲醇分解释放聚(3-乙烯基-或4-乙烯基儿茶酚)来去除。令人惊讶的是,邻苯二酚聚合物的稳定性取决于取代基的分布;聚(3-乙烯基儿茶酚)比以往报道的任何多儿茶酚都更稳定。它可溶于甲醇,自氧化很慢,但可被硝酸铈铵氧化成聚(3-乙烯基-1,2-苯醌)。
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