摘要
以Criegee三步反应机理为核心对烯烃臭氧化反应中的臭氧化物生成机理进行了综述。论述了初级臭氧化物的生成与分解和臭氧化物生成过程的选择性和立体化学。讨论了烯烃结构和反应各步骤的选择性和立体化学的关系。
The mechanism of ozonide formation has been being focused on the study of ozonization of alkenes. Criegee' s three - step mechanism has been widely accepted. The first step is the formation of a primary ozonide. In most cases, it is a concerted cycloaddition of alkene to ozone. The second step is fragmentation of the primary ozonide into a carbonyl oxide and a carbonyl compound. Carbonyl oxide is the core of Criegee' s mechanism. The ratio of carbonyl oxide to carbonyl compound depends on the structure of the alkene. The third step is recombination of the carbonyl compound with carbonyl oxide. Besides newly - formed carbonyl compound, other already existed carbonyl group can also react with carbonyl oxide. Carbonyl oxide can also react with compounds bearing active proton, such as water, alcohols, organic acids and amines. Literature of the Criegee' s mechanism is reviewed. Reaction process, selectivity and stereochemistry of each step are discussed on the basis of the related literature.
出处
《有机化学》
SCIE
CAS
CSCD
北大核心
1999年第3期224-235,共12页
Chinese Journal of Organic Chemistry
