Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
65775 | Journal of Molecular Catalysis A: Chemical | 2013 | 6 Pages |
•A facile method for one-pot synthesis of 1,2/3-triols from allylic hydroperoxides.•Zeolite-confined osmium(0) nanoclusters as efficient and reusable catalyst.•Allylic hydroperoxide group served as both the co-oxidant and substrate.•A mechanism proposed for the synthesis of 1,2/3-triols from allylic hydroperoxides.
A facile, efficient and eco-friendly method for the one-pot synthesis of 1,2/3-triols from the allylic hydroperoxides were developed by using zeolite-confined osmium(0) nanoclusters as reusable catalyst and without using any co-oxidant (H2O2, tBuOOH, NMO, etc.) in water/acetone (v/v = 1/4) mixture at room temperature. In this method, the oxygen atom of the allylic hydroperoxide group was transferred to the double bond of the same molecule via zeolite-confined osmium(0) nanoclusters. The method has been successfully applied to various allylic hydroperoxides and the corresponding 1,2/3-triols were obtained in high chemical yield. Moreover, a plausible mechanism was proposed for the catalytic oxidation of allylic hydroperoxide to the respective 1,2/3-triols in the presence of zeolite-Os0 catalyst gathering all the results collected by testing a variety of allylic hydroperoxides in the presence of zeolite-Os0 catalyst.
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