| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 26251 | Journal of Photochemistry and Photobiology A: Chemistry | 2016 | 7 Pages |
•Alpha-substituted 2-nitrobenzyl esters form multiple by-products upon photodeprotection.•2-Nitrosoketones isolated after deprotection reaction formed similar photoproducts.•Isopropyl substitution gave bicyclic oxazole as a major photorearrangement product.•Tertiary-butyl substitution gave azoxy and azo compounds as photoirradiation products.•Nature of α-substituent affects photodeprotection rate and types of photo-products.
Ultraviolet(UV)-induced photodeprotection of 2-nitrobenzyl esters to release the acid with formation of the corresponding 2-nitrosoketone proceeds rapidly when the α-position in the 2-nitrobenzyl group is substituted by a branched alkyl group. The generated 2-nitrosophenyl ketones undergo multiple photoreactions, including a unique photorearrangement, depending upon the nature of the α-substituent. 2-Nitrosoketone bearing an isopropyl substituent mainly undergoes this rearrangement to afford a bicyclic oxazole via a shift of the isopropyl group to the bridgehead position, resulting in loss of aromaticity of the six-membered ring. 2-Nitrosopheyl ketone bearing a tertiary-butyl substituent gives mainly azoxy and azo compounds via intermolecular reaction of nitrosoketones with loss of isobutene. The photorearrangement does not proceed in the case of the phenyl-substituted compound. These findings will be helpful for the selection and/or design of photolabile protecting groups.
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