243 research outputs found
Application of genetic algorithm for extraction of the parameters from powder EPR spectra
The application of the stochastic genetic algorithm in tandem with the
deterministic Powell method to automated extraction of the magnetic parameters from powder EPR spectra was described. The efficiency and robustness of such hybrid approach were investigated as a function of the uncertainty range of the parameters, using simulated data sets. The discussed
results demonstrate superior performance of the hybrid genetic algorithm
in fitting of complex spectra in comparison to the common Monte Carlo
method joint with the Powell refinement
Structural and textural evolution of zirconia nanocrystals induced by thermal treatment
Nanometric tetragonal and monoclinic zirconia was synthesized from zirconyl chloride by the modified forced hydrolysis method. Phase transitions and morphological changes accompanying zirconia
calcination in the temperaure range 600–1000 °C were studied by XRD, HR-TEM techniques and
N2-porosimetry. Ageing of the amorphous hydrous zirconia at 100 °C for 48 h in the mother solution and
its subsequent calcination at 600 °C for 6 h strongly favoured formation of single-phase tetragonal ZrO2
of the thermal stability enhanced by 250 °C. Influence of the calcination temperature on phase composition, grain size, grain boundaries and pore structure of the resultant ZrO2 material was analyzed
Interaction of diatomic molecules with nickel ions inside the channels of high silica zeolites : an EPR and DFT study
Interaction of CO, NO, and O-2 diatomics with Ni-II and ions dispersed in ZSM-5 zeolite was investigated by electron paramagnetic resonance (EPR) spectroscopy and density functional theory (DFT) modelling. The resulting adducts Ni-I-CO, Ni-II-NO, and Ni-I-O-2 were identified based on g-tensor parameters, obtained by computer fitting of the powder EPR spectra, and next ascertained by parallel relativistic DFT calculations of the corresponding g-tensor values. The structures of the Ni-I-CO, Ni-II-NO, and Ni-I-O-2 complexes were obtained by geometry optimization with the Kohn-Sham method. Binding of the diatomics was discussed in terms of the spin-pairing and electron density transfer events. Interaction of CO with Ni-I cations led to the pronounced change in the coordination and electronic structure of the Ni-I center, however, no redox processes were observed in agreement with the "innocent" nature of CO as a ligand. On the contrary, strong electron and spin density redistribution was observed upon NO and O-2 interaction ("non-innocent ligands") leading to the formation of the bound nitrosonium NO delta+ and superoxo O-2(-) species, respectively
Role of electronic factor in soot oxidation process over tunnelled and layered potassium iron oxide catalysts
This paper describes the investigations of the
catalytic activity in soot oxidation over well-defined iron
oxide based materials. The nanostructuration of iron oxide
by potassium into tunnelled (KFeO
2
) and layered
(K
2
Fe
22
O
34
) ferrites and the surface promotion with CeO
2
results in the marked increase in the catalytic activity
(decrease of the ignition temperature down to 210
°
C and
T
10 %
to 310
°
C). The measurements of the catalysts work
function showed that both nanostructuration and surface
promotion with ceria of the best KFeO
2
phase led to
increase of the electron availability (decrease of the work
function). Strong correlation of the catalytic activity in soot
combustion of the Ce–K–Fe–O systems with the work
function value was revealed for the first time in the model
studies, and can be used as a guideline for optimisation of
the real catalytic filters
Selectivity of mixed iron-cobalt spinels deposited on a N,S-doped mesoporous carbon support in the oxygen reduction reaction in alkaline media
One of the practical efforts in the development of oxygen reduction reaction (ORR) catalysts applicable to fuel cells and metal-air batteries is focused on reducing the cost of the catalysts production. Herein, we have examined the ORR performance of cheap, non-noble metal based catalysts comprised of nanosized mixed Fe-Co spinels deposited on N,S-doped mesoporous carbon support (N,S-MPC). The effect of the chemical and phase composition of the active phase on the selectivity of catalysts in the ORR process in alkaline media was elucidated by changing the iron content. The synthesized materials were thoroughly characterized by transmission electron microscopy (TEM), X-ray diffraction (XRD), and Raman spectroscopy (RS). Detailed S/TEM/EDX and Raman analysis of the phase composition of the synthesized ORR catalysts revealed that the dominant mixed iron-cobalt spinel is accompanied by minor fractions of bare cobalt and highly dispersed spurious iron oxides (Fe2O3 and Fe3O4). The contribution of individual phases and their degree of agglomeration on the carbon support directly influence the selectivity of the obtained catalysts. It was found that the mixed iron-cobalt spinel single phase gives rise to significant improvement of the catalyst selectivity towards the desired 4e− reaction pathway, in comparison to the reference bare cobalt spinel, whereas spurious iron oxides play a negative role for the catalyst selectivity
Hydrothermal synthesis of euhedral nanocrystals via nutrient-assisted topotactic transformation of the layered precursor under anoxic conditions : insights into intricate routes leading to spinel phase development and shape perfection
Euhedral cobalt spinel cubes, octahedra, and cuboctahedra with narrow size dispersions have been synthesized in a one-pot hydrothermal reaction, using cobalt(II) nitrate and sodium hydroxide at variable concentrations as the only reagents, while their ratio was kept constant at = 2.7. Three main reaction stages, including parent reactive template (PRT) formation, nutrient mediated topotactic nucleation (NTN), and morphogenesis of nanocrystals (MNC), were distinguished. In the NTN step, the primary spinel grains development occurs with the [100] and [111] directions of the facets inheriting the [1-11] direction of the elongated PRT plates (formation of cubes) or the [001] direction of the hexagonal PRT plates (formation of octahedra). In an anoxic environment, the excess nitrate anions play a critical role as the to oxidants and oxygen donors required to attain the stoichiometry. The nucleated primary nanocrystals are spontaneously assembled into sub-micrometer spinel mesocrystals via imperfectly oriented attachments and then consolidated into euhedral bulk nanocrystals by a hydrothermal treatment (nanocubes) or via dissolution and reentrant recrystallization processes (octahedra and cuboctahedra)
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