降冰片烯系应变碳环化合物的非均相催化转化特征

S. A. Durakov, A. Kolobov, V. Flid
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引用次数: 4

摘要

目标。涉及降冰片烯(NBN)和降冰片二烯(NBD)的催化过程为合成各种难以到达的多环烃提供了特殊的机会。这些反应的选择性和可制造性问题对它们的实际实施至关重要。本文综述了在制备和转化有前途的NBN-和nbd衍生物并在这些化合物的异构化和二聚化反应中保持应变碳环框架的多相催化剂设计领域的最新进展。展望了NBN及NBD衍生物多相催化合成的发展前景和催化剂的选择策略。证明了NBN和NBD选择性二聚化和异构化的可能性。讨论了影响反应方向的因素,并探讨了维持应变降冰片烯结构的可能性。对该问题现状的分析表明,目前在非均相催化剂的参与下,NBD和NBN衍生物的转化工艺参数明显低于均相体系。为了提高这些工艺的生产率和设计催化剂再生,需要进一步的研究。但是,在这些领域已经取得了一些进展。在许多过程中,不仅可以维持应变碳环框架,而且可以建立控制区域选择性和立体选择性的方法。在某些情况下,使用非均相催化剂可以使该过程直接进入一个全新的途径,而这对于均相系统来说是没有类似物的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Features of heterogeneous catalytic transformations of strained carbocyclic compounds of the norbornene series
Objectives. Catalytic processes involving norbornene (NBN) and norbornadiene (NBD) offer exceptional opportunities for the synthesis of a wide range of hard-to-reach polycyclic hydrocarbons. The problems of selectivity and manufacturability of these reactions are fundamentally important for their practical implementation. The aim of this review is to summarize the latest advances in the field of designing heterogeneous catalysts for the preparation and transformation of promising NBN- and NBD-derivatives with the maintenance of a strained carbocyclic framework in isomerization and dimerization reactions of these compounds.Results. Various strategies for the selection of catalysts and prospects for the development of heterogeneous catalysis for syntheses based on NBN and NBD derivatives were considered. The possibility of selective cyclic dimerization and isomerization of NBN and NBD was shown. The factors that affect the direction of the reactions and make it possible to maintain the strained norbornane structure were discussed.Conclusions. An analysis of the current state of this problem showed that at present, the technological parameters of the conversion of NBD and NBN derivatives with the participation of heterogeneous catalysts are significantly inferior to homogeneous systems. In order to improve the productivity of these processes and design catalyst regeneration, further investigations are required. However, some progress in these areas has already been made. In a number of processes, it is possible not only to maintain the strained carbocyclic framework, but also to establish ways to control regio- and stereo-selectivity. In some cases, the use of heterogeneous catalysts allows the process to be direct into a completely new path, which has no analogues for homogeneous systems.
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