%0 Journal Article %A Chen, Chen %A Yuan, Haiyang %A Wang, Haifeng %A Yao, Yefeng %A Ma, Wenbao %A Chen, Jizhong %A Hou, Zhenshan %D 2016 %T Highly Efficient Epoxidation of Allylic Alcohols with Hydrogen Peroxide Catalyzed by Peroxoniobate-Based Ionic Liquids %U https://acs.figshare.com/articles/journal_contribution/Highly_Efficient_Epoxidation_of_Allylic_Alcohols_with_Hydrogen_Peroxide_Catalyzed_by_Peroxoniobate_Based_Ionic_Liquids/3198838 %R 10.1021/acscatal.6b00786.s001 %2 https://ndownloader.figshare.com/files/5008813 %K epoxidation %K allylic alcohols %K Hydrogen Peroxide Catalyzed %K Nb %K DFT %K NMR %K hydrogen bond mechanism %K H 2 O 2 %K oxygen species attacks %K TGA %K IR %K IL %K ice bath conditions %K OOH %K HRMS %K substrate OH group %K monomeric peroxoniobate anion functionalized %X This work reports new kinds of monomeric peroxoniobate anion functionalized ionic liquids (ILs) designated as [A+]­[NbO­(O-O)­(OH)2] (A+ = tetrapropylammonium, tetrabutylammonium, or tetrahexylammonium cation), which have been prepared and characterized by elemental analysis, HRMS, NMR, IR, TGA, etc. With hydrogen peroxide as an oxidant, these ILs exhibited excellent catalytic activity and recyclability in the epoxidation of various allylic alcohols under solvent-free and ice bath conditions. Interestingly, subsequent activity tests and catalyst characterization together with first-principles calculations indicated that the parent [NbO­(O-O)­(OH)2] anion has been oxidized into the anion [Nb­(O-O)2(OOH)2] in the presence of H2O2, which constitutes the real catalytically active species during the reaction; this anion has higher activity in comparison to the analogous peroxotungstate anion. Moreover, the epoxidation process of the substrate (allylic alcohol) catalyzed by [Nb­(O-O)2(OOH)2] was explored at the atomic level by virtue of DFT (density functional theory) calculations, identifying that it is more favorable to occur through a hydrogen bond mechanism, in which the peroxo group of [Nb­(O-O)2(OOH)2] serves as the adsorption site to anchor the substrate OH group by forming a hydrogen bond, while OOH as the active oxygen species attacks the CC bond in substrates to produce the corresponding epoxide. This is the first example of the highly efficient epoxidation of allylic alcohols using a peroxoniobate anion as a catalyst. %I ACS Publications