Synthesis ( IF 2.2 ) Pub Date : 2018-08-02 , DOI: 10.1055/s-0037-1609909 Goutam Brahmachari 1 , Nayana Nayek 1 , Khondekar Nurjamal 1 , Indrajit Karmakar 1 , Sanchari Begam 1
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Abstract
Organocatalysts play pivotal roles in accomplishing a wide range of useful organic transformations, and organocatalytic reactions are now becoming powerful tools in the construction of simple to complex molecular scaffolds. This remarkable field is growing rapidly with new concepts and designs. During the recent past, triethylamine (or N,N-diethylethanamine), has emerged as an efficient organocatalyst in carrying out so many organic transformations, thereby producing interesting molecular frameworks. Triethylamine is relatively safe, commercially available and cheap. This review offers a decade update on the developments of triethylamine-catalyzed organic transformations reported during the period of 2008 through 2017.
1 Introduction
2 Organocatalytic Applications of Triethylamine in Organic Transformations
2.1 Organic Transformations under Ambient Conditions
2.2 Organic Transformations under Heating/Reflux Conditions
3 Conclusion
Organocatalysts play pivotal roles in accomplishing a wide range of useful organic transformations, and organocatalytic reactions are now becoming powerful tools in the construction of simple to complex molecular scaffolds. This remarkable field is growing rapidly with new concepts and designs. During the recent past, triethylamine (or N,N-diethylethanamine), has emerged as an efficient organocatalyst in carrying out so many organic transformations, thereby producing interesting molecular frameworks. Triethylamine is relatively safe, commercially available and cheap. This review offers a decade update on the developments of triethylamine-catalyzed organic transformations reported during the period of 2008 through 2017.
1 Introduction
2 Organocatalytic Applications of Triethylamine in Organic Transformations
2.1 Organic Transformations under Ambient Conditions
2.2 Organic Transformations under Heating/Reflux Conditions
3 Conclusion
中文翻译:
三乙胺—一种有机转化中的多功能有机催化剂:十年来的最新进展
摘要
有机催化剂在完成各种有用的有机转化中起着关键作用,并且有机催化反应现在正成为构建简单到复杂分子支架的有力工具。随着新概念和设计的发展,这个非凡的领域正在迅速发展。在最近的过去中,三乙胺(或N,N-二乙基乙胺)已作为进行许多有机转化的有效有机催化剂出现,从而产生了令人感兴趣的分子框架。三乙胺是相对安全的,可商购且便宜。这篇综述提供了从2008年到2017年间三乙胺催化的有机转化的发展十年更新信息。
1引言
2三乙胺在有机转化中的有机催化应用
2.1在环境条件下的有机转化
2.2加热/回流条件下的有机转化
3结论
有机催化剂在完成各种有用的有机转化中起着关键作用,并且有机催化反应现在正成为构建简单到复杂分子支架的有力工具。随着新概念和设计的发展,这个非凡的领域正在迅速发展。在最近的过去中,三乙胺(或N,N-二乙基乙胺)已作为进行许多有机转化的有效有机催化剂出现,从而产生了令人感兴趣的分子框架。三乙胺是相对安全的,可商购且便宜。这篇综述提供了从2008年到2017年间三乙胺催化的有机转化的发展十年更新信息。
1引言
2三乙胺在有机转化中的有机催化应用
2.1在环境条件下的有机转化
2.2加热/回流条件下的有机转化
3结论
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