The lattice energies of the as-synthesized fluoride-containing chabazite-like aluminophosphate (AlPO4-34F) and of the corresponding metal-substituted materials [MeAPO-34F, Me = Mn(II), Co(II), Ni(II)] have been calculated in order to investigate the Al-site preference the transition metal substitution in the AlPO4-34F. The calculations show that the transition metal ions in MeAPO-34F should preferentially occupy octahedral Al3+ sites, and kinetic reasons are suggested as an explanation for the actual preference of tetrahedral sites. The lattice energies have also been calculated for the calcined AlPO4-34F material (AlPO4-34) and the rehydrated-calcined product (AlPO4-34h). The AlPO4-34 is found to be less stable than either AlPO4-34F or AlPO4-34h, which is consistent with the fact that AlPO4-34 can only be prepared starting from AlPO4-34F.
Keywords:
chabazite zeolite / aluminophosphates / GULP program / catalyst
TY - JOUR
AU - Stojaković, D.
AU - Rajić, Nevenka
PY - 2001
UR - http://TechnoRep.tmf.bg.ac.rs/handle/123456789/378
AB - The lattice energies of the as-synthesized fluoride-containing chabazite-like aluminophosphate (AlPO4-34F) and of the corresponding metal-substituted materials [MeAPO-34F, Me = Mn(II), Co(II), Ni(II)] have been calculated in order to investigate the Al-site preference the transition metal substitution in the AlPO4-34F. The calculations show that the transition metal ions in MeAPO-34F should preferentially occupy octahedral Al3+ sites, and kinetic reasons are suggested as an explanation for the actual preference of tetrahedral sites. The lattice energies have also been calculated for the calcined AlPO4-34F material (AlPO4-34) and the rehydrated-calcined product (AlPO4-34h). The AlPO4-34 is found to be less stable than either AlPO4-34F or AlPO4-34h, which is consistent with the fact that AlPO4-34 can only be prepared starting from AlPO4-34F.
PB - Kluwer Academic Publ, Dordrecht
T2 - Journal of Porous Materials
T1 - Computational studies in the AlPO4-34 system
EP - 242
IS - 3
SP - 239
VL - 8
DO - 10.1023/A:1012296908560
ER -
@article{
author = "Stojaković, D. and Rajić, Nevenka",
year = "2001",
abstract = "The lattice energies of the as-synthesized fluoride-containing chabazite-like aluminophosphate (AlPO4-34F) and of the corresponding metal-substituted materials [MeAPO-34F, Me = Mn(II), Co(II), Ni(II)] have been calculated in order to investigate the Al-site preference the transition metal substitution in the AlPO4-34F. The calculations show that the transition metal ions in MeAPO-34F should preferentially occupy octahedral Al3+ sites, and kinetic reasons are suggested as an explanation for the actual preference of tetrahedral sites. The lattice energies have also been calculated for the calcined AlPO4-34F material (AlPO4-34) and the rehydrated-calcined product (AlPO4-34h). The AlPO4-34 is found to be less stable than either AlPO4-34F or AlPO4-34h, which is consistent with the fact that AlPO4-34 can only be prepared starting from AlPO4-34F.",
publisher = "Kluwer Academic Publ, Dordrecht",
journal = "Journal of Porous Materials",
title = "Computational studies in the AlPO4-34 system",
pages = "242-239",
number = "3",
volume = "8",
doi = "10.1023/A:1012296908560"
}
Stojaković, D.,& Rajić, N.. (2001). Computational studies in the AlPO4-34 system. in Journal of Porous Materials
Kluwer Academic Publ, Dordrecht., 8(3), 239-242.
https://doi.org/10.1023/A:1012296908560
Stojaković D, Rajić N. Computational studies in the AlPO4-34 system. in Journal of Porous Materials. 2001;8(3):239-242.
doi:10.1023/A:1012296908560 .
Stojaković, D., Rajić, Nevenka, "Computational studies in the AlPO4-34 system" in Journal of Porous Materials, 8, no. 3 (2001):239-242,
https://doi.org/10.1023/A:1012296908560 . .
