首页 | 本学科首页   官方微博 | 高级检索  
     


An efficient method to prepare sulfoxonium ylides and their reactivity studies using copper powder and Sc(III) as catalysts: Molecular and electronic structure analysis
Authors:Kankanala Ramakrishna  Arumugam Jayarani  Fathima Febin Koothradan  Chinnappan Sivasankar
Affiliation:Catalysis and Energy Laboratory, Department of Chemistry, Pondicherry University (A Central University), Puducherry, 605014 India
Abstract:Sulfoxonium ylides are the viable alternatives for diazo compounds as carbene precursors. Unlike diazo compounds, these are bench-stable and crystalline solids. However, the existing methods for the synthesis of sulfoxonium ylides have disadvantages related to the yields, substrate scope, and usage of expensive catalysts. Therefore, it is necessary to develop efficient and competitive protocols for the preparation of sulfoxonium ylides. In this study, we developed an economically affordable protocol for the synthesis of sulfoxonium ylides from diazo compounds using copper powder as a catalyst. This protocol leads to the efficient multigram-scale synthesis of a wide range of sulfoxonium ylides in good yields. Further, we demonstrated scandium triflate–catalyzed carbene insertion into the N−H bond from sulfoxonium ylide. A variety of anilines and sulfoxonium ylides with various functional groups reacted well and produced the corresponding α-amino esters in good yields. All the synthesized compounds were characterized using various standard spectroscopic and analytical techniques. We also used computational methods to understand the electronic structure of all the sulfoxonium ylides using geometry optimization, frequency calculation, molecular orbital and natural bond orbital analysis, and energy decomposition analysis. Our computational results revealed that the interaction between carbene and dimethyl sulfoxide is covalent in nature and stable enough to handle in the absence of any catalyst.
Keywords:amino esters  carbene  Lewis acid  N–H insertion  sulfoxonium ylides
设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号