Y. Garcia-Basabe, A. Gomez, I. Rodriguez-Iznaga, A. Montero, G. Vlaic, A. Lausi, and A.R. Ruiz-Salvador
Locating Extra-Framework Cations in Low-Silica Zeolites by a Combinatorial Approach of the Direct Space Method and Rietveld Refinement: Application to Ni2+ and Co2+ Enriched Clinoptilolite
Complete reference: “Locating Extra-Framework Cations in Low-Silica Zeolites by a Combinatorial Approach of the Direct Space Method and Rietveld Refinement: Application to Ni2+ and Co2+ Enriched Clinoptilolite”, Y. Garcia-Basabe, A. Gomez, I. Rodriguez-Iznaga, A. Montero, G. Vlaic, A. Lausi, and A.R. Ruiz-Salvador,
J. Phys. Chem. C. 114 (2010) 5964–5974
DOI: 10.1021/jp9105772
Abstract:
The location of extra-framework cations in low-silica zeolites is determined from in-house X-ray powder diffraction pattern by a successful implementation of a newly developed methodology. The method combines reciprocal and direct space methods plus a cost function that accounts for simultaneous fit of the chemical composition and the X-ray diffractogram. We demonstrated that the
iterative combination of relaxation methods (Monte Carlo exploration and lattice energy minimization) helps to improve the structural refinement. The methodology is successfully applied to the study of natural clinoptilolite samples enriched with Ni and Co; in both cases, two different cation sites were found octahedrally coordinated to water molecules. The most populated site is located in the center of the A channel, while the second one is found in the window of the B channel. This result was validated using XANES and EXAFS spectroscopies.