多金属氧酸盐
催化作用
反应性(心理学)
化学
质子化
化学计量学
电子转移
氧化还原
电化学
光化学
物理化学
结晶学
无机化学
有机化学
医学
替代医学
电极
病理
离子
作者
Mauro Carraro,Nadeen H. Nsouli,Holger Oelrich,Andrea Sartorel,Antonio Sorarù,Sib Sankar Mal,Gianfranco Scorrano,Lorenz Walder,Ulrich Kortz,Marcella Bonchio
标识
DOI:10.1002/chem.201003103
摘要
Abstract At variance with previously known coordination compounds, the polyoxometalate (POM)‐embedded Zr IV and Hf IV peroxides with formula: [M 2 (O 2 ) 2 (α‐XW 11 O 39 ) 2 ] 12− (M=Zr IV , X=Si ( 1 ), Ge ( 2 ); M=Hf IV , X=Si ( 3 )) and [M 6 (O 2 ) 6 (OH) 6 (γ‐SiW 10 O 36 ) 3 ] 18− (M=Zr IV ( 4 ) or Hf IV ( 5 )) are capable of oxygen transfer to suitable acceptors including sulfides and sulfoxides in water. Combined 1 H NMR and electrochemical studies allow monitoring of the reaction under both stoichiometric and catalytic conditions. The reactivity of peroxo‐POMs 1 – 5 is compared on the basis of substrate conversion and kinetic. The results show that the reactivity of POMs 1 – 3 outperforms that of the trimeric derivatives 4 and 5 by two orders of magnitude. Reversible peroxidation of 1 – 3 occurs by H 2 O 2 addition to the spent catalysts, restoring oxidation rates and performance of the pristine system. The stability of 1 – 3 under catalytic regime has been confirmed by FT‐IR, UV/Vis, and resonance Raman spectroscopy. The reaction scope has been extended to alcohols, leading to the corresponding carbonyl compounds with yields up to 99 % under microwave (MW) irradiation. DFT calculations revealed that polyanions 1 – 3 have high‐energy peroxo HOMOs, and a remarkable electron density localized on the peroxo sites as indicated by the calculated map of the electrostatic potential (MEP). This evidence suggests that the overall description of the oxygen‐transfer mechanism should include possible protonation equilibria in water, favored for peroxo‐POMs 1 – 3 .
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