2001
DOI: 10.1039/b105799p
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The siting of Cu(II) in mordenite: a theoretical spectroscopic study

Abstract: The siting of Cu(II) in mordenite has been studied by ab initio calculations on large cluster models, representing the cation exchange sites in mordenite. Partial geometry optimizations, based on density functional theory (DFT), were performed to obtain the structure of the coordination environment of Cu(II) at the different sites. The ligand field spectra and EPR g-tensors of these clusters were then calculated by means of multiconfigurational perturbation theory (CASPT2). The calculated results were compared… Show more

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Cited by 47 publications
(93 citation statements)
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“…So far this has not been supported by computational analysis of the spin Hamiltonian parameters or of the splitting of the electronic energy levels in Cu-CHA. The results from the DFT calculations performed on Cu-MOR are in line with the arguments given here for Cu-CHA [50]. The electronic spectra of CuOH + species in 8mr sites may also be contributing this region.…”
Section: Assignment Of Epr Spectra Of Cu 2+ In 6mr Sitessupporting
confidence: 72%
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“…So far this has not been supported by computational analysis of the spin Hamiltonian parameters or of the splitting of the electronic energy levels in Cu-CHA. The results from the DFT calculations performed on Cu-MOR are in line with the arguments given here for Cu-CHA [50]. The electronic spectra of CuOH + species in 8mr sites may also be contributing this region.…”
Section: Assignment Of Epr Spectra Of Cu 2+ In 6mr Sitessupporting
confidence: 72%
“…On the other hand the assignments are well corroborated by the stability of the sites for Cu-MOR [37,50]. A similar argument can be made for Cu-CHA, since Gao et.…”
Section: This Contribution Has Not Yet Been Identifiedsupporting
confidence: 63%
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“…However, fairly good results for g-tensors and d-d transition energies were also obtained by Pierloot and co-workers using the CASPT2 method in conjunction with SOS theory. 85,86 In two respects these calculations are more approximate that the present ones: (1) only the SOC of the copper has been treated using an even more approximate SOC operator that we have and (2) the many-electron wavefunctions were of the CASSCF type and do not include dynamic correlation while the state energies are accurate from CASPT2. The neglect of the relaxation in the wavefunction potentially poses some problems.…”
Section: Discussionmentioning
confidence: 97%