Unusual Coordination Behavior of Cr3+ in Microporous Aluminophosphates
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2006-01-19
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Abstract
A CrAPO-5 molecular sieve has been investigated with X-ray absorption spectroscopy (EXAFS-XANES) as dehydrated material and after loading with water and ammonia to unravel the coordination geometries of Cr3+ in the framework of a microporous crystalline aluminophosphate, more particularly of the AFI-type. A comparison of the XANES data, a preedge analysis with crystal field multiplet calculations and EXAFS data, pointed toward the presence of framework Cr3+ which, on dehydration, takes on a distorted tetrahedral coordination state. Due to the 3d(3) configuration of Cr3+, this unusual tetrahedral coordination environment strongly tends to transform into the more stable 6-fold coordination geometry by binding two extraframework water molecules during hydration. In the presence of ammonia, tetrahedral Cr3+ readily transforms into a 5-fold coordination geometry by binding one ammonia molecule. Therefore, depending on the environmental conditions, the Cr3+ ions can occur in a 4-, 5-, or 6-fold coordination. This observation underlines the flexibility of transition metal ions, such as Cr3+, to cope with unusual coordination geometries in inorganic hosts, making them interesting as potential active sites in heterogeneous catalysis.
Keywords
TRANSITION-METAL IONS, MOLECULAR-SIEVE CATALYSTS, ELECTRON-PARAMAGNETIC-RESONANCE, LIQUID-PHASE OXIDATIONS, X-RAY-ABSORPTION, ETHYLENE POLYMERIZATION, ORGANOMETALLIC OXIDES, BLUE DIOPSIDE, CHROMIUM, CRAPO-5, Taverne
Citation
Beale, AM, Grandjean, D, Kornatowski, J, Glatzel, P, de Groot, FMF & Weckhuysen, BM 2006, 'Unusual Coordination Behavior of Cr3+ in Microporous Aluminophosphates', Journal of Physical Chemistry B, vol. 110, no. 2, pp. 716-722. https://doi.org/10.1021/jp0531006