Structure and properties of amorphous silico-aluminas. Part 5.—Nature and properties of silico-alumina surfaces

A. Léonard, P. Ratnasamy, F. D. Declerck, J. J. Fripiat
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引用次数: 32

Abstract

In order to find to what extent the surface properties of amorphous silico-aluminas and aluminas are related to the atomic organization, the radial electron distribution and X-ray fluorescence spectroscopy were used to determine the kind of structure defects. For high-surface area solids (>100m2/g) a noticeable fraction of the cations and oxygen anions are in the first or the two first surface layers so that the averaged structure parameters obtained from these methods integrate the bulk and the surface organization. Assuming that the defects in the bulk and on the surface are comparable, it should be possible to correlate surface properties, such as the acid properties, with the nature of these defects. Moreover, if some quantitative agreements appear between e.g., the total number of defects and the number of surface acid sites of some sorts, the defects concentrations on the surface phase might be related to the total number of defects. The two above assumptions seem to be acceptable. The three main structure defects appear to be (i) the aluminium cations substituting silicon cations in tetrahedral coordination; (ii) aluminium cations in a perturbed tetrahedral arrangement and (iii) silicon in a perturbed tetrahedral arrangement. In these perturbed tetrahedral arrangements, one at least among the four oxygens might be displaced, exposing partially the cations to the outside. In aluminas, defects of type (ii) are the most probable; they are related to the Lewis acidity. In silico-aluminas, throughout the range of composition, 0 0.5, defects of type (iii) could provide a new source of Lewis acidity. These observations are supported by the variations in the catalytic cracking properties. Defects of type (ii) are also probable in the composition range 0.3 0.6. Also infra-red spectroscopic features of adsorbed NH3 seem to confirm these deductions.
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非晶硅铝的结构与性能。第5部分。-硅-氧化铝表面的性质和性能
为了找出非晶硅铝和非晶氧化铝的表面性能与原子组织的关系在多大程度上,采用径向电子分布和x射线荧光光谱来确定结构缺陷的种类。对于高表面积固体(>100m2/g),阳离子和氧阴离子的显著部分位于第一或两个第一表面层,因此从这些方法获得的平均结构参数集成了体积和表面组织。假设整体缺陷和表面缺陷具有可比性,则有可能将表面特性(如酸性)与这些缺陷的性质联系起来。此外,如果在缺陷的总数和某些种类的表面酸位点的数量之间出现一些定量的一致,则表面相上的缺陷浓度可能与缺陷的总数有关。以上两个假设似乎是可以接受的。三种主要的结构缺陷表现为:(1)铝阳离子取代硅阳离子形成四面体配位;(ii)扰动四面体排列的铝阳离子和(iii)扰动四面体排列的硅阳离子。在这些被扰动的四面体排列中,四个氧原子中至少有一个可能发生位移,使部分阳离子暴露在外面。在氧化铝中,(ii)型缺陷是最可能的;它们与路易斯酸度有关。在硅铝中,在整个组成范围内,(iii)型缺陷可以提供路易斯酸的新来源。催化裂化性能的变化支持了这些观察结果。(ii)型缺陷也可能出现在成分0.3 ~ 0.6范围内。此外,吸附NH3的红外光谱特征似乎也证实了这些推论。
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