Theoretical and experimental investigations on site occupancy for palladium oxidation states in mesoporous Al-MCM-41 materials
2012
Abstract The site occupancy of the various oxidation state of palladium supported on mesostructured porous aluminosilica of Al-MCM-41 type was studied combining density functional theory (DFT), FTIR, and Raman investigations. The study focuses on the usual +2 oxidation state highly dispersed during palladium incorporation via template-ion exchange (TIE) but also on other oxidation states. The simulations of the IR spectra using silica clusters of different sizes confirm the Pd 2+ preference for sites contained in 6- or 8-membered rings (band at 930 cm −1 ). The calculations suggest that, after calcination, isolated oxidized palladium species such as [PdO] 2+ , [Pd(OH) 2 ] 2+ for the +4 oxidation state, as well as [PdOH] 2+ for the +3 EPR active oxidation state may coexist. The match between experimental and calculated vibrational frequencies relies on the two intense Raman bands at 270 and 630 cm −1 . All these oxidized species are preferentially located on 8-membered rings and linked to three framework oxygen atoms.
Keywords:
- Correction
- Source
- Cite
- Save
- Machine Reading By IdeaReader
73
References
18
Citations
NaN
KQI