反应性(心理学)
钒
表面改性
氧化钒
催化作用
钒酸盐
氧化物
金属
氧化还原
星团(航天器)
无机化学
化学
材料科学
磁性
纳米技术
组合化学
物理化学
有机化学
计算机科学
物理
量子力学
替代医学
程序设计语言
医学
病理
作者
Katharina Kastner,Johannes Förster,Hiromichi Ida,Graham N. Newton,Hiroki Oshio,Carsten Streb
标识
DOI:10.1002/chem.201501049
摘要
Controlling the assembly and functionalization of molecular metal oxides [Mx Oy ](n-) (M=Mo, W, V) allows the targeted design of functional molecular materials. While general methods exist that enable the predetermined functionalization of tungstates and molybdates, no such routes are available for molecular vanadium oxides. Controlled design of polyoxovanadates, however, would provide highly active materials for energy conversion, (photo-) catalysis, molecular magnetism, and materials science. To this end, a new approach has been developed that allows the reactivity tuning of vanadium oxide clusters by selective metal functionalization. Organic, hydrogen-bonding cations, for example, dimethylammonium are used as molecular placeholders to block metal binding sites within vanadate cluster shells. Stepwise replacement of the placeholder cations with reactive metal cations gives mono- and difunctionalized clusters. Initial reactivity studies illustrate the tunability of the magnetic, redox, and catalytic activity.
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