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DOI: 10.1055/s-0030-1258576
Isomerization of Electron-Poor Alkynes to the Corresponding (E,E)-1,3-Dienes Using a Bifunctional Polymeric Catalyst Bearing Triphenylphosphine and Phenol Groups
Publikationsverlauf
Publikationsdatum:
23. September 2010 (online)
Abstract
The use of a bifunctional non-cross-linked polystyrene bearing both phosphine and phenol groups for the organocatalytic isomerization of alkynes bearing electron-withdrawing ester substituents to afford the corresponding (E,E)-dienes in excellent yield and stereoselectivity is described. When polystyrene functionalized with only phosphine groups was used as the catalyst, either low or no yield of the desired product was obtained. Thus both of the functional groups of the bifunctional polystyrene catalyst were essential for efficient catalysis to occur. This bifunctional polymeric catalyst was also used to synthesize (E,E,E)-trienes and (E,E)-diene-substituted 2(H)-pyran-2-ones from the corresponding alkynes.
Key words
organocatalysis - polymer-supported catalyst - alkyne isomerization - dienes - triphenylphosphine - phenol
- Supporting Information for this article is available online:
- Supporting Information (PDF)
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References and Notes
We have previously reported the use of a cross-linked bifunctional analogue of 1 as a catalyst in Morita-Baylis-Hillman reactions, which have some mechanistic similarities to the isomerization reactions reported herein. However, due to its heterogeneous nature and poor swelling properties, it was less efficient than a corresponding cross-linked monofunctional analogue of 2. See ref. 8d for details.
11See Supporting Information for details.