102806-80-4Relevant academic research and scientific papers
Ti-catalyzed homolytic opening of ozonides: A sustainable C-C bond-forming reaction
Rosales, Antonio,Munoz-Bascon, Juan,Lopez-Sanchez, Cristobal,Alvarez-Corral, Miriam,Munoz-Dorado, Manuel,Rodriguez-Garcia, Ignacio,Oltra, J. Enrique
experimental part, p. 4171 - 4176 (2012/06/18)
The unprecedented homolytic opening of ozonides promoted and catalyzed by titanocene(III) is reported. This novel reaction proceeds at room temperature under neutral, mild conditions compatible with many functional groups and provides carbon radicals suitable to form C-C bonds via both homocoupling and cross-coupling processes. The procedure has been advantageously exploited for the straightforward synthesis of the natural product brittonin A.
REDUCTION PAR LES SELS CHROMEUX DE BROMURES BENZYLIQUES ORTHO-O-ACYLES AVEC TRANSPOSITION DU GROUPEMENT ACYLE DE L'ESTER: ACCES AUX ORTHO-HYDROXYBENZYL CETONES NON MASQUEES ET UNE NOUVELLE PREPARATION DE BENZO(B)FURANNES SUBSTITUES EN POSITION-2
Ledoussal, B.,Gorgues, A.,Coq, A. Le
, p. 5841 - 5852 (2007/10/02)
The ?-bonded organochromium (III) complexes resulting from the reduction of ortho-O-acyl benzylic bromides 1 with CrCl2 undergo an 1,5-transposition of the ester acyl functional group which allows, through selected experimental conditions either a selective access to the unmasked ortho-hydroxybenzyl ketones 2 or a new preparation of the 2-substituted benzofurans 3.The scope and limitations of the method are presented.
Formation and reactivity of 1,3-benzodioxol-2-yl, 1,3-benzodioxan-2-yl, and related radicals. A search for an aromatic analog of the radical acetoxy rearrangement (Surzur-Tanner reaction)
Shahidi, Fereidoon,Tidwell, Thomas T.
, p. 1092 - 1097 (2007/10/02)
Reaction of the 1,3-dioxole, 9, the 1,3-dioxan, 18, and the 1,3-dioxepin, 29, with tert-butoxy radicals gave evidence in each case for formation of the corresponding 1,1-dioxyethyl radicals.No conclusive evidence for formation of any of these radicals by cyclization of acetoxyaryl radicals could be obtained.Several of the 1,1-dioxyethyl radicals reacted by rearrangement.
