Abstract
High-temperature solid-state ion exchange has been performed with H-SAPO-5 and various copper(II) compounds. Electron paramagnetic resonance (EPR) shows that this technique introduces CuII cations by ion exchange into H-SAPO-5, producing (S)Cu(F)H-SAPO-5 and (S)Cu(O)H-SAPO-5, where (S) indicates solid-state ion exchange and the subscripts F and O indicate the copper sources CuF2 and CuO used in the solid-state reaction. The EPR parameters for both hydrated and dehydrated samples of (S)Cu(F)H-SAPO-5 and (S)Cu(O)H-SAPO-5 vs.(L)CuH-SAPO-5, where (L) indicates liquid-state ion exchange, show differences which are suggested to be due to anion involvement in the coordination of copper(II). This is supported by electron spin echo modulation data which show that the distances between CuII and several adsorbates in (S)Cu(F)H-SAPO-5 are shorter than those for (L)CuH-SAPO-5 by 0.02–0.04 nm. Similar differences are observed for (S)Cu(F)H-SAPO-34 and (S)Cu(Cl)H-SAPO-34 vs.(L)CuH-SAPO-34 and for (S)Cu(O)H-SAPO-11 vs.(L)CuH-SAPO-11. The g anisotropy also supports a decrease in symmetry owing to anion involvement.
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