Cyclization via Metal-Catalyzed Hydrogen Atom Transfer/Radical-Polar Crossover

 

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Dedicated to Professor K. Peter C. Vollhardt in recognition of his invaluable contributions to the field of organic chemistry and his pioneering role in the development and success of Synlett.

Abstract

Catalytic transformations of alkenes via the metal-hydride hydrogen atom transfer (MHAT) mechanism have notably advanced synthetic organic chemistry. This Account focuses on MHAT/radical-polar crossover (MHAT/RPC) conditions, offering a novel perspective on generating electrophilic intermediates and facilitating various intramolecular reactions. On using cobalt hydrides, the MHAT mechanism displays exceptional chemoselectivity and functional group tolerance, making it invaluable for the construction of complex biologically relevant molecules under mild conditions. Recent developments have enhanced regioselectivity and expanded the scope of MHAT-type reactions, enabling the formation of cyclic molecules via hydroalkoxylation, hydroacyloxylation, and hydroamination. Notably, the addition of an oxidant to traditional MHAT systems enables the synthesis of rare cationic alkylcobalt(IV) complexes, bridging radical mechanisms to ionic reaction systems. This Account culminates with examples of natural product syntheses and an exploration of asymmetric intramolecular hydroalkoxylations, highlighting the ongoing challenges and opportunities for future research to achieve higher enantioselectivity. This comprehensive study revisits the historical evolution of the MHAT mechanism and provides a groundwork for further innovations on the synthesis of structurally diverse and complex natural products.

1 Introduction

2 Intramolecular Hydroalkoxylation and Hydroacyloxylation Reactions

3 Intramolecular Hydroamination Reactions

4 Intramolecular Hydroarylation Reactions

5 Deprotective Cyclization

6 Asymmetric Intramolecular Hydroalkoxylation

7 Conclusion

Publication History

Received: 15 May 2024

Accepted after revision: 03 June 2024

Accepted Manuscript online:
03 June 2024

Article published online:
14 June 2024

© 2024. Thieme. All rights reserved

Georg Thieme Verlag KG
Rüdigerstraße 14, 70469 Stuttgart, Germany

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