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环己酮制备实验的改进
引用本文:刁开盛,李雁,覃志刘. 环己酮制备实验的改进[J]. 广西民族大学学报, 2005, 11(1): 98-101
作者姓名:刁开盛  李雁  覃志刘
作者单位:广西民族学院,化学与生态工程学院,广西,南宁,530006;广西民族学院,化学与生态工程学院,广西,南宁,530006;广西民族学院,化学与生态工程学院,广西,南宁,530006
基金项目:广西民族学院科研基金资助课题(01HXX00003).
摘    要:以30%H2O2 为氧化剂,用FeCl3 催化氧化环己醇可得到产率(基于环己醇)为 75%以上的环己酮,反应中无须加入相转移催化剂,考察了用量、催化剂、反应时间及反应温度对产率的影响.所用催化剂价廉易得且具有极佳的水溶性,分离回收容易,是一条绿色合成环己酮的好途径,克服了目前有机化学实验教材中采用浓HNO3、KCrO4 或KMnO4 氧化法存在污染大、反应时间长等缺点.

关 键 词:环己酮  环己醇  过氧化氢  制备
文章编号:1007-0311(2005)01-0098-04
修稿时间:2004-09-30

Study on the Preparation of Cyclohexanone
DIAO Kai-sheng,LI Yan,QIN Zhi-liu. Study on the Preparation of Cyclohexanone[J]. Journal of Guangxi University For Nationalities, 2005, 11(1): 98-101
Authors:DIAO Kai-sheng  LI Yan  QIN Zhi-liu
Abstract:Without phrase transfer catalyst, Cyclohexanone was prepared from cyclohexanol and hydrogen peroxide. The effect on reaction of factors including the amount of oxidant and catalyst, reaction time and temperature were accounted and the optimum conditions were found. Compared with that of teaching material in organic chemistry, which is pollutant and poisonous, the new way is more feasible and less poison and suitable for teaching experiment. Because the catalyst used in the reaction, FeCl_3, is handy, dissolvable, and recyclable as well.
Keywords:Cyclohexanone  Cyclohexanol  Hydrogen peroxide  Preparation
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