Spectroscopic study of the coordination and valence of Fe and Mn ions in and on the surface of aluminas and silicas

G. T. Pott, B. D. Mcnicol
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引用次数: 61

Abstract

A comparative study of the first-row transition metal ions Fe3+ and Mn2+ on the surfaces of aluminas and silicas has been made using the conventional techniques e.s.r., X-ray diffraction, magnetic susceptibility and in addition a relatively new technique phosphorescence spectroscopy.The results indicate that Fe3+ ions dissolve readily in γ-alumina up to 1 w% in samples calcined at 200°C and up to at least 10 % in samples calcined at 800°C. In silica not more than 0.1 w% Fe3+ could be dissolved, the remainder crystallizing as α-Fe2O3 on the surface. E.s.r. and phosphorescence indicate that Fe3+ ions on γ-Al2O3 calcined below 400°C are mostly octahedrally coordinated on the surface, but above this temperature the majority of the Fe3+ ions take up tetrahedral coordination. Mn2+ ions almost exclusively occupy tetrahedral holes at the surface. At the phase transition θ→α-Al2O3 above 1000°C, Fe3+ ions move into trigonally distorted octahedral sites whereas Mn2+ changes valence to Mn4+ in octahedral sites. Also in silica, Fe3+ ions preferentially take up tetrahedral coordination above 400°C heat treatments and remain in these sites up to 1200°C calcination temperatures.Most of these results can be explained on the basis of the differences between the structures of silicas and aluminas.
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氧化铝和二氧化硅表面铁、锰离子配位和价态的光谱研究
采用常规的电磁共振、x射线衍射、磁化率和较新的磷光光谱技术,对氧化铝和二氧化硅表面第一排过渡金属离子Fe3+和Mn2+进行了对比研究。结果表明,Fe3+离子在γ-氧化铝中的溶解率在200℃下可达1w %,在800℃下可达10%以上。在二氧化硅中,Fe3+的溶解量不超过0.1%,其余部分在表面结晶为α-Fe2O3。esr和磷光表明,在400℃以下煅烧的γ-Al2O3表面Fe3+离子以八面体配位为主,高于400℃的Fe3+离子以四面体配位为主。Mn2+离子几乎完全占据表面的四面体空穴。在1000℃以上θ→α-Al2O3相变过程中,Fe3+离子进入三角畸变的八面体位,而Mn2+在八面体位上转变成Mn4+价态。同样在二氧化硅中,Fe3+离子在400°C以上的热处理中优先采用四面体配位,并在1200°C的煅烧温度下保持在这些位置。这些结果大多可以用二氧化硅和氧化铝的结构差异来解释。
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