Journal ArticleDOI
Oxygen-Atom Vacancy Formation at Polyoxovanadate Clusters: Homogeneous Models for Reducible Metal Oxides
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TLDR
The first example of oxygen-atom vacancy formation at the surface of a polyoxometalate is reported, highlighting the ability of apolyoxovanadate-alkoxide cluster, [V6O7(OCH3)12]1-, to function as a homogeneous model for reducible metal oxides.Abstract:
We report the first example of oxygen-atom vacancy formation at the surface of a polyoxometalate, highlighting the ability of a polyoxovanadate-alkoxide cluster, [V6O7(OCH3)12]1–, to function as a homogeneous model for reducible metal oxides. The removal of an oxide ion from [V6O7(OCH3)12]1– results in the formation of a reactive vanadium(III) cation within the multimetallic framework. Generation of [V6O6(OCH3)12]1– is confirmed by 1H NMR, infrared and electronic absorption spectroscopies, as well as electrospray ionization mass spectrometry. The consequences of oxygen atom removal on the electrochemical profile of the assembly are assessed, revealing that stabilization of the reduced cluster is achieved through delocalized electron density. The oxygen-atom vacancy permits activation of O2, demonstrating the ability of polyoxovanadate-alkoxide clusters to serve as both structural and functional models of reducible metal oxides.read more
Citations
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Oxygen vacancies in metal oxides: recent progress towards advanced catalyst design
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A multicentre synergistic polyoxometalate-based metal–organic framework for one-step selective oxidative cleavage of β-O-4 lignin model compounds
Hongrui Tian,Yiwei Liu,Zhong Zhang,Shumei Liu,Tian-Yi Dang,Xiaohui Li,Xiuwei Sun,Ying Lu,Shuxia Liu +8 more
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