Stabilization Of Nabh4 In Methanol Using A Catalytic Amount Of Naome. Reduction Of Esters And Lactones At Room Temperature Without Solvent-Induced Loss Of Hydride

Rapid reaction of NaBH4 with MeOH precludes its use as a solvent for large-scale ester reductions. We have now learned that a catalytic amount of NaOMe cool %) stabilizes NaBH4 solutions in methanol at 25 degrees C and permits the use of these solutions for the reduction of,esters to alcohols. The generality of this reduction method was demonstrated using 22 esters including esters of naturally occurring chiral gamma-butyrolactone containing dicarboxylic acids. This method permits the chemoselective reductions of esters in the, presence of cyano and nitro groups and the reductive cyclization of a pyrrolidinedione ester to a fused five-membered furo[2,3-b]pyrrole and a (-)-crispine A analogue in high optical and, chemical yields. Lactones, aliphatic esters, aromatic esters containing electron-withdrawing groups, and heteroaryl esters ate reduced more rapidly than - aryl esters containing electron-donating groups. The B-11 NMR spectrum of the NaOlvle-stabilized NaBH4 solutions showed. a minor quartet due to monomethoxyborohydride (NaBH3OMe) that persisted up to 18 h at 25 degrees C. We postulate that NaBH3OMe is probably the active reducing agent. In support of this hypothesis, the activation barrier for hydride transfer from BH3(OMe)- onto benzoic acid methyl ester was calculated as 18.3 kcal/mol.