Your search keyword '"β-fragmentation"' showing total 3 results

1. Radical dehydroxymethylative fluorination of aliphatic primary alcohols and diverse functionalization of α-fluoroimides via BF3·OEt2-catalyzed C‒F bond activation

Author

Wang, Peng, Wang, Jianjun, Song, Ni, Zhou, Xin, and Li, Ming

Published

2025

2. Isonitrile Photochemistry: A Functional Group Class Coming in from the Cold.

Author

Giustiniano, Mariateresa

Subjects

*ISOCYANIDES, *VISIBLE spectra, *PHOTOCHEMISTRY, *FUNCTIONAL groups, *HIGH temperatures

Abstract

Starting from a historical background that acknowledges isonitriles as a neglected class of compounds due to their unpleasant smell and hardly controlled reaction conditions with open shell species, the present concept article aims at highlighting the seeds of the modern isonitrile photochemistry. Representative essential transformations achieved via either UV light irradiation or radical initiators at high temperatures are brought into play to draw a parallel with the current literature relying on the exploitation of visible light photochemical methods. Such a comparison points out the potential of this enabling technology to further expand the scope of isonitrile chemistry and the unmet challenges which makes it a very stimulating field. [ABSTRACT FROM AUTHOR]

Published

2024

3. [Synthesis of Modified Nucleosides Using 4'-Carbon Radicals].

Author

Ito Y

Subjects

Free Radicals chemistry, Free Radicals chemical synthesis, Chemistry Techniques, Synthetic methods, Hydrogen chemistry, Nucleosides chemical synthesis, Nucleosides chemistry, Carbon chemistry, Antiviral Agents chemical synthesis, Antiviral Agents chemistry

Abstract

Nucleosides with a substituent at the 4'-position have received much attention as antiviral drugs and as raw materials for oligonucleotide therapeutics. 4'-Modified nucleosides are generally synthesized using ionic reactions through the introduction of electrophilic or nucleophilic substituents at the 4'-position. However, their synthetic methods have some drawbacks; e.g., (i) it is difficult to control stereoselectivity at the 4'-position; (ii) complex protection-deprotection processes are required; (iii) the range of electrophiles and nucleophiles is limited. With this background, we considered that a carbon radical generated at the 4'-position would be a useful intermediate for the synthesis of 4'-modified nucleosides. In this review, two novel methods for the generation of 4'-carbon radicals are summarized. The first utilizes radical deformylation involving β-fragmentation of a hydroxymethyl group at the 4'-position. The other utilizes radical decarboxylation and 1,5-hydrogen atom transfer (1,5-HAT), which enables the generation of 4'-carbon radicals while retaining the hydroxymethyl group at the 4'-position. These methods enable the rapid and facile generation of 4'-carbon radicals and provide various 4'-modified nucleosides including 2',4'-bridged structures.

Published

2024