Solid-State 51V NMR and Infrared Spectroscopic Study of Vanadium Oxide Supported on ZrO2-WO3

Im Ja Doh; Jong Rack Sohn; Man Ho Lee; Young Il Pae

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Solid-State 51V NMR and Infrared Spectroscopic Study of Vanadium Oxide Supported on ZrO2-WO3

机译：ZrO2-WO3负载钒氧化物的固态51V NMR和红外光谱研究

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Vanadium oxide catalyst supported on ZrO2-WO3 was prepared by adding the Zr(OH)4 powder into a mixed aqueous solution of ammonium metavanadate and ammonium metatungstate followed by drying and calcining at high temperatures. The characterization of prepared catalysts was performed using solid-state 51V NMR and FTIR. In the case of calcination temperature at 773 K, for the samples containing low loading V2O5 below 18 wt % vanadium oxide was in a highly dispersed state, while for samples containing high loading V2O5 equal to or above 18 wt % vanadium oxide was well crystallized due to the V2O5 loading exceeding the formation of monolayer on the surface of ZrO2-WO3. The ZrV2O7 compound was formed through the reaction Of V2O5 and ZrO2 at 873 K and the compound decomposed into V2O5 and ZrO2 at 1073 K, which were confirmed by FTIR and 51V NMR.B980225

机译：通过将Zr（OH）4粉末添加到偏钒酸铵和偏钨酸铵的混合水溶液中，然后在高温下干燥和煅烧来制备负载在ZrO2-WO3上的氧化钒催化剂。使用固态51V NMR和FTIR对制得的催化剂进行表征。在773 K的煅烧温度下，对于低含量V2O5的样品，低于18 wt％的氧化钒处于高度分散状态，而对于高含量V2O5等于或高于18 wt％的钒，则由于良好结晶而结晶。超过ZrO2-WO3表面单层形成的V2O5负载。 ZrV2O7化合物是通过873 K下的V2O5与ZrO2反应以及在1073 K下分解为V2O5和ZrO2的化合物形成的，经FTIR和51V NMR证实.B980225

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《Bulletin of the Korean Chemical Society》 |1998年第8期|共页
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Im Ja Doh; Jong Rack Sohn; Man Ho Lee; Young Il Pae;
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Solid-State 51V NMR and Infrared Spectroscopic Study of Vanadium Oxide Supported on ZrO2-WO3

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