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The Baylis-Hillman chemistry in aqueous media: elucidation of mechanism for synthesis of ether side-product leads to an efficient approach to C-O bond formation |
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| Authors: | A PatraA.K Roy B.S JoshiR Roy S Batra A.P Bhaduri |
| Affiliation: | a Medicinal Chemistry Division, Central Drug Research Institute, Lucknow 226001, India b RSIC Division, Central Drug Research Institute, Lucknow 226001, India |
| Abstract: | The formation of an ether from the Baylis-Hillman (BH) adduct during the BH reaction of 5-isoxazolecarboxaldehydes is a common phenomenon if the reaction is allowed to proceed for longer periods. The amount of formation of such ethers depends on the acrylates used and is most significant for tert-butyl acrylates. A study of the plausible mechanism for the formation of these side-products led to reactions of acetates of BH adducts with phenol in aqueous media to yield the corresponding 3-phenoxy alk-2-enoates in good yields. The successful translation of solution phase methodology to solid phase for application towards combinatorial chemistry is discussed. |
| Keywords: | Baylis-Hillman reaction 5-isoxazolecarboxaldehyde phenol 3-phenoxy alk-2-enoates solid phase |
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