Reductive dechlorination and degradation of mirex and kepone with vitamin B12s

G.N. Schrauzer, R.Nathan Katz
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引用次数: 32

Abstract

Vitamin B12s effects the reductive dechlorination of mirex (dechlorane) in protic solvent systems, under both catalytic and stoichiometric conditions, mainly to yield compounds of composition C10Cl12-nHn, with n = 1–8, in which the basic dihomocubane cage structure is retained; the formation of cage-opened, reductively dehalogenated derivatives of 4,7-methanoindene occurs only to a very minor extent.

The corresponding reactions of kepone (chlordecone), in contrast, occur with predominant formation of indene derivatives C9Cl8-nH (with n = 3–5), presumably via 4,7-methanoinden-8-one derivatives. Under certain mild conditions, vitamin B12s induces a fragmentation of kepone leading to the destruction of the dihomocubane moiety and the formation of an isolable organocobalamin having a C3Cl3H2 residue attached to the cobalt atom. In strongly alkaline media, the reaction of kepone with vitamin B12s may in addition yield high-molecular-weight condensation products of unknown constitution. Reactions of this type are of interest as prototypes of soil-decontamination processes.

维生素B12s对乳糜和酮的还原脱氯和降解
在催化和化学计量条件下,维生素B12s在质子溶剂体系中影响mirex (decchlorane)的还原脱氯反应,主要生成组分为C10Cl12-nHn的化合物,n = 1-8,其中保留了基本的二异立方烷笼状结构;4,7-甲烷烯的笼开的还原脱卤衍生物的形成只在很小的程度上发生。相反,酮(十氯酮)的相应反应主要是通过4,7-甲甲醇-8- 1衍生物生成茚衍生物C9Cl8-nH (n = 3-5)。在某些温和的条件下,维生素B12s诱导酮的断裂,导致二异叔巴烷部分的破坏,形成可分离的有机钴胺素,钴原子上附着C3Cl3H2残留物。在强碱性介质中,酮与维生素b12的反应还可能产生高分子量的缩合产物。这种类型的反应作为土壤净化过程的原型而引起人们的兴趣。
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