One-step catalytic synthesis of ε-caprolactam from cyclohexane  nitrosation catalyzed by transition VPO composites

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One-step catalytic synthesis of ε-caprolactam from cyclohexane nitrosation catalyzed by transition VPO composites

QI Xingshi1，MAO Liqiu1，YIN Dulin1，YOU Kuiyi2，LUO He’an2

1Institute of Fine Catalysis and Synthesis，Hunan Normal University，Changsha 410081，Hunan，China；2College of Chemical Engineering，Xiangtan University，Xiangtan 411105，Hunan，China

Online:2011-02-05 Published:2011-02-05

VPO复合物催化环己烷亚硝化一步合成ε-己内酰胺

戚行时1，毛丽秋1，尹笃林1，游奎一2，罗和安2

1湖南师范大学精细催化合成研究所，湖南长沙 410081；2 湘潭大学化工学院，湖南湘潭 411105

Abstract

Abstract:

A series of transition metal-doped M₁-M₂vanadium phosphorus oxide（VPO）（M₁= Mn，M₂=Al，Mg，Ti）composite catalysts were prepared by the reduction-dipping method，and were employed to catalyze reaction of cyclohexane with nitrosyl sulfuric acid in the presence of fuming sulfuric acid. ε-caprolactam was directly obtained from such one-step catalytic process. Among them，the Mn-Al-VPO gave the best results with 17.1% of conversion and 75.6% of selectivity to ε-caprolactam. A possible mechanism is proposed.

摘要：

采用还原-浸渍法设计和制备了一系列过渡金属掺杂的还原型M₁-M₂VPO（M₂=Al、Mg、Ti）复合催化剂，应用于环己烷液相亚硝化一步合成ε-己内酰胺的反应。结果表明，己内酰胺可以通过催化环己烷亚硝化一步直接获得。在这些复合催化剂中，还原-浸渍型的Mn-AlVPO催化剂具有较佳的催化性能：环己烷的转化率为17.1%，目标产物己内酰胺的选择性高达75.6%。并对反应机理进行了初步探讨。

QI Xingshi1，MAO Liqiu1，YIN Dulin1，YOU Kuiyi2，LUO He’an2. One-step catalytic synthesis of ε-caprolactam from cyclohexane nitrosation catalyzed by transition VPO composites[J]. Chemical Industry and Engineering Progree.

戚行时1，毛丽秋1，尹笃林1，游奎一2，罗和安2. VPO复合物催化环己烷亚硝化一步合成ε-己内酰胺 [J]. 化工进展.

One-step catalytic synthesis of ε-caprolactam from cyclohexane nitrosation catalyzed by transition VPO composites

VPO复合物催化环己烷亚硝化一步合成ε-己内酰胺

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