Your search keyword '"I. Stará"' showing total 28 results

1. Role of Pd–Al bimetallic interaction in CO adsorption and catalytic properties of bulk PdAl alloy: XPS, ISS, TDS, and SIMS study

Author

Viktor Johánek, Vladimír Matolín, and I. Stará

Subjects

Valence (chemistry), Chemistry, Thermal desorption spectroscopy, Analytical chemistry, Surfaces and Interfaces, Condensed Matter Physics, Surfaces, Coatings and Films, Secondary ion mass spectrometry, Adsorption, X-ray photoelectron spectroscopy, Chemisorption, Desorption, Materials Chemistry, Bimetallic strip

Abstract

CO adsorption on the bulk PdAl bimetallic systems has been studied using XPS, ISS, TDS, and SIMS under UHV conditions. Pd exhibits strong interaction with Al atoms resulting in the formation of noble metal-like electronic structure of PdAl alloy. The shifts of both Pd core levels and of Pd valence d-band centroid towards higher binding energies compared to bulk Pd were observed. The surface structure of the alloy changes with temperature (Al surface segregation), ion bombardment (preferential Al sputtering), and is also strongly affected by the presence of ambient CO. The Pd–Al bond is weakened upon the interaction with CO, which tends to dissociate on the surface even at room temperature, with carbon fraction bonding to Pd atoms and oxygen to Al. The TDS of CO spectra consisted of one to three desorption peaks, all lying lower than those from Pd foil, indicating a distinct weakening of the Pd–CO chemisorption bond. Moreover, the partial CO dissociation on PdAl was indicated both as adsorption capacity decay and CO2 and H2O production.

Published

2002

2. XPS, ISS and TDS study of bimetallic interaction between Pd and Al: CO interaction with supported Pd/alumina catalysts

Author

Viktor Johánek, Kateřina Veltruská, Vladimír Matolín, Nataliya Tsud, and I. Stará

Subjects

Chemistry, Thermal desorption spectroscopy, Inorganic chemistry, Intermetallic, Surfaces and Interfaces, Condensed Matter Physics, Surfaces, Coatings and Films, Catalysis, Transition metal, X-ray photoelectron spectroscopy, Chemisorption, Materials Chemistry, Physical chemistry, Spectroscopy, Bimetallic strip

Abstract

The metal–substrate interaction (MSI) represents an important effect determining the properties of supported heterogeneous catalysts. We investigated the MSI effects by X-ray photoelectron spectroscopy, ion scattering spectroscopy and thermal desorption spectroscopy in the case of Pd films vapor deposited on non-stoichiometric aluminum oxide substrates. We compared the obtained results with these of bulk Pd and Pd/Al reference alloy. The observed MSI is explained by the formation of an intermetallic interface exhibiting a strong bimetallic transition-metal (Pd)/s, p-metal (Al) interaction. The fundamental studies of Pd/Al bimetallic alloys are of an importance due to the role that they play in the modification of chemisorption and catalytic properties of real Pd/Al-oxide systems as well as in the realization of novel Pd-alloy catalysts. The reported behavior represents a new way in explanation of former unexpected CO adsorption properties of alumina supported Pd particles.

Published

2002

3. XPS, ISS and TPD study of Pd–Sn interactions on Pd–SnO systems

Author

Vladimír Matolín, N. Tsud, Viktor Johánek, I. Stará, and Kateřina Veltruská

Subjects

Chemistry, Doping, Metals and Alloys, Analytical chemistry, Thermal desorption, Surfaces and Interfaces, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Metal, Transition metal, X-ray photoelectron spectroscopy, visual_art, Desorption, Materials Chemistry, visual_art.visual_art_medium, Spectroscopy, Bimetallic strip

Abstract

The sensitivity and selectivity of SnO2 based gas sensors could be improved by doping of small amount of transition metals. In this work we used X-ray photoelectron spectroscopy, ion scattering spectroscopy, and thermal desorption techniques to investigate Pd evaporated on SnOx thin layer substrate, prepared by spray pyrolysis. The evolution of Pd/SnOx layer morphology with increasing amount of Pd deposits was studied using the XPS inelastic background shape analysis. The observations are compared to the results obtained from natural SnO2 crystal and metallic Sn substrates. A strong Pd–Sn bimetallic interaction was observed, resulting in the formation of PdSn alloy of noble metal-like electronic structure. This feature also corresponds to the presence of two CO desorption states with low energy peaks at approximately 390 K. The relation of our results with the operation mechanism of gas detection are discussed.

Published

2001

4. XPS and TDS study of CO interaction with Pd–AlO systems

Author

Nataliya Tsud, Vladimír Matolín, I. Stará, and Viktor Johánek

Subjects

Chemistry, Thermal desorption spectroscopy, Analytical chemistry, Intermetallic, Oxide, Surfaces and Interfaces, General Chemistry, Condensed Matter Physics, Heterogeneous catalysis, Surfaces, Coatings and Films, chemistry.chemical_compound, X-ray photoelectron spectroscopy, Chemisorption, Desorption, Bimetallic strip

Abstract

The metal–substrate and metal–metal interactions (MSI, MMI) represent important effects determining the properties of supported catalysts, gas sensors and gettering alloys. We investigated the MSI and MMI effects by the X-ray photoelectron spectroscopy (XPS) and temperature programmed desorption (TPD) in the case of Pd films deposited on Al 2 O 3 and Al substrates. The study shows that the particle-size dependent metal–substrate interaction plays an important role in CO–Pd chemisorption, namely, in the case of “aluminium rich” Pd–aluminium oxide interface. CO chemisorption exhibits a low-temperature desorption feature at 360 K characteristic for Pd–Al and very small Pd particles. The MSI is explained by the formation of a Pd–Al intermetallic interface exhibiting a strong bimetallic Pd–Al interaction.

Published

2001

5. EELS investigation of Pd thin film growth on aluminum oxide substrate

Author

Vladimír Matolín, Bernard Gruzza, and I. Stará

Subjects

Radiation, Materials science, Electron energy loss spectroscopy, Composite number, Analytical chemistry, Substrate (electronics), Condensed Matter Physics, Atomic and Molecular Physics, and Optics, Spectral line, Electronic, Optical and Magnetic Materials, Overlayer, Excited state, Physical and Theoretical Chemistry, Thin film, Spectroscopy, Plasmon

Abstract

Electron energy loss spectroscopy (EELS) operated at energies from 250 to 1500 eV was used for coverage analysis of supported non-continuous layers. The alumina supported very thin Pd films were prepared by depositing small amounts of Pd on thermally oxidized Al substrate. The film growth was investigated via variations of intensity of excited Pd plasmons and of alumina energy losses. The overlayer coverage was determined from the relative contribution of deposit and substrate signal to the composite spectra taking into account the backreflecting capacity of both materials and loss event probabilities [Surf. Rev. Lett. 6 (1999) 801]. The results show high sensitivity of the EELS method to deposit thickness and continuity.

Published

2001

6. XPS and TPD study of CO interaction with Pd–Al and Pd–Al2O3 systems

Author

Vladimír Matolín, Nataliya Tsud, I. Stará, Viktor Johánek, and Kateřina Veltruská

Subjects

Radiation, Chemistry, Thermal desorption spectroscopy, Binding energy, Analytical chemistry, Condensed Matter Physics, Atomic and Molecular Physics, and Optics, Dissociation (chemistry), Electronic, Optical and Magnetic Materials, Auger, Catalysis, Adsorption, X-ray photoelectron spectroscopy, Desorption, Physical chemistry, Physical and Theoretical Chemistry, Spectroscopy

Abstract

The metal–substrate and metal–metal interactions represent important effects determining the properties of supported catalysts. We investigate the CO adsorption mechanism on Pd particles supported on Al 2 O 3 and Al by X-ray photoelectron spectroscopy (XPS) and temperature programmed desorption (TPD). CO–metal interaction is investigated by TP desorption of CO and by XPS of C 1s intensities that exhibit three CO-related components. The dissociation activity is monitored as a rise of C 1s signal at 285 eV while the molecularly adsorbed CO exhibits the intensity at 287 eV. Pd–substrate interaction is determined from the Pd core- and valence-level binding energy variations. The influence of the Pd–Al alloying process on the Pd MNN Auger transition is shown. The studies show that the metal–substrate and metal–metal interactions play an important role in CO–Pd adsorption process.

Published

2001

7. CO adsorption on palladium model catalysts: XPS Pd–Al2O3 interaction study

Author

Viktor Johánek, Nataliya Tsud, Vladimír Matolín, I. Stará, and Kateřina Veltruská

Subjects

Binding energy, Inorganic chemistry, chemistry.chemical_element, Surfaces and Interfaces, Condensed Matter Physics, Dissociation (chemistry), Surfaces, Coatings and Films, Catalysis, Electron transfer, Adsorption, chemistry, Transition metal, X-ray photoelectron spectroscopy, Materials Chemistry, Palladium

Abstract

The metal–substrate interaction (MSI) represents one of the most important effects determining the properties of supported catalysts. It is expected to be one of the driving forces of the size effect in catalysis. In this work we investigated the MSI by X-ray photoelectron spectroscopy (XPS) in the case of small Pd particles deposited on γ- and α-alumina substrates. We compared the binding energy and initial state variations as a function of Pd coverage. The initial state has been found to be shifted to higher positive values for a more strongly interacting substrate (γ-Al2O3), whilst for the inert-like sapphire substrate the MSI was less important. The initial state shift value was associated with the electron transfer in the substrate clusters direction. It was shown that the substrate–metal charge transfer could be responsible for partial CO dissociation on γ-Al2O3 supported Pd particles.

Published

2000

8. CO adsorption on Al2O3-supported Pd clusters: XPS study

Author

I. Stará, Nataliya Tsud, Vladimír Matolín, Viktor Johánek, and Kateřina Veltruská

Subjects

chemistry.chemical_classification, Inorganic chemistry, technology, industry, and agriculture, Oxide, General Physics and Astronomy, Surfaces and Interfaces, General Chemistry, Condensed Matter Physics, Dissociation (chemistry), Surfaces, Coatings and Films, chemistry.chemical_compound, Adsorption, chemistry, Transition metal, X-ray photoelectron spectroscopy, Physical chemistry, Particle size, Inorganic compound, Carbon monoxide

Abstract

The adsorption of carbon monoxide on small alumina-supported Pd particles have been studied by X-ray photoelectron spectroscopy (XPS). The results showed clearly different surface properties of bulk metal and supported clusters. The effect of partial CO dissociation was observed on Pd deposited on γ-alumina and on clean aluminium, but not on small Pd particles prepared on thin amorphous oxide film on Al substrate. CO–Pd interaction was determined from C 1s photoelectron spectra that exhibited two CO-related components. The dissociation activity was monitored as a rise of C 1s signal at 285 eV, while the molecularly adsorbed CO exhibited the intensity at 287 eV. The study showed that beside the particle size, the metal–substrate interaction (MSI) plays an important role in CO–Pd adsorption process.

Published

2000

9. QUANTITATIVE ANALYSIS OF NONCONTINUOUS THIN FILMS BY EELS

Author

Vladimír Matolín and I. Stará

Subjects

Chemistry, Electron energy loss spectroscopy, Analytical chemistry, Surfaces and Interfaces, Substrate (electronics), Electron, Condensed Matter Physics, Spectral line, Surfaces, Coatings and Films, Reflection (mathematics), Materials Chemistry, Thin film, Quantitative analysis (chemistry), Intensity (heat transfer)

Abstract

Reflection electron energy loss spectroscopy (EELS) operated at low primary electron energy Ep (~ 500 eV) can be used as a coverage-sensitive probe in the case of supported noncontinuous layers. Quantitative analysis by EELS is substantially complicated by the fact that EEL intensity depends on two material factors: K(E), differential cross section for energy loss of E, and electron backscattering factor η(Ep). Both factors were determined experimentally using deposit and substrate reference samples. The contribution of pure substrate and pure deposit EEL curves to composed EEL spectra of the investigated deposit/substrate system has been found by fitting it with combination of reference K(E)λ curves (λ stands for IMFP). The fit results corrected using η(Ep) factors permitted one to evaluate the deposit coverage. The method was tested using the reference Au fractional deposit on the sapphire substrate.

Published

1999

10. Model of lateral forces and compensation effect in TDS spectra analysis

Author

I. Stará and E. Tomková

Subjects

Surface (mathematics), Chemistry, Mineralogy, Thermodynamics, Condensed Matter Physics, Spectral line, Arrhenius plot, Surfaces, Coatings and Films, Compensation effect, Desorption, Constant (mathematics), Instrumentation, Single crystal, Energy (signal processing)

Abstract

A model of a coverage-dependent desorption energy, E d ( Θ ), and a preexponential factor, v ( Θ ), is proposed in which lateral forces and a compensation effect are taken into account. Two parameters are applied: a coverage-dependent energy E lat ( Θ ) of lateral forces and a constant T c which describes the relation between v and E d . Together with the Polanyi-Wigner equation, formulas for E lat ( Θ ) and v ( E d ) as taken from literature allow to obtain a modified Arrhenius plot. With values of E lat and T c properly chosen, the plot makes again a straight line with parameters which correspond to zero-coverage values of desorption energy and preexponential factor. As the analysis is based on the application of two mutually independent parameters ( E lat , T c ) the ambiguity of results can occur. It can be reduced if a set of TDS spectra with different initial values of coverage are analyzed. The model has been applied to a set of CO desorption spectra from small Pd supported particles as well as from a Pd single crystal surface.

Published

1998

11. Influence of Alumina Surface Structure on Growth and Adsorption Properties of Pd Particles

Author

V. Gonzalez, I. Jungwirthová, Karel Mašek, I. Stará, and Vladimír Matolín

Subjects

Materials science, Reflection high-energy electron diffraction, Surfaces and Interfaces, Condensed Matter Physics, Dissociation (chemistry), Surfaces, Coatings and Films, Catalysis, Crystallography, Adsorption, Chemical engineering, Electron diffraction, Desorption, Materials Chemistry, Surface structure, Molecular beam

Abstract

The partial CO dissociation observed on small Pd particles deposited on γ-alumina and only molecular adsorption of CO on Pd/(0001) α-alumina model catalysts show that the surface structure of alumina can influence the reactivity of supported clusters. To understand the effect of metal–support interaction, Pd particles were deposited on alumina substrates of different surface structure [(0001), (1-102)]. The surface of alumina substrates was investigated by means of reflection high energy electron diffraction (BREED). The growth of Pd particles, their structure and orientation were observed by RHEED. In order to compare the catalytic properties of supported Pd particles, the study of CO and O adsorption was performed by temperature-programmed desorption (TPD) using molecular beam techniques.

Published

1998

12. CO diffusion over the alumina support of Pd particle model catalysts

Author

I. Stará and Vladimír Matolín

Subjects

Surface diffusion, Sticking coefficient, Chemistry, Diffusion, Analytical chemistry, Mineralogy, Surfaces and Interfaces, Condensed Matter Physics, Surfaces, Coatings and Films, Adsorption, Desorption, Materials Chemistry, Effective diffusion coefficient, Particle, Sticking probability

Abstract

The CO adsorption rate of alumina-supported Pd particles increases with CO diffusion over the support surface. The diffusion of admolecules is interrupted by desorption or by trapping by catalyst particles. The mean diffusion length determines the width of the so-called “capture zones” around the particle. In molecular beam scattering studies, an increase in diffusion length and consequently in capture-zone width is observed as the sticking probability S i of the impinging molecule increases. In this study, the parameter S i is determined for CO interaction with Pd particles supported on different types of alumina substrates as a function of substrate temperature. The results allow an evaluation of the adsorption probability of CO on alumina as well as the mean diffusion length versus substrate temperature.

Published

1998

13. AES and EELS study of alumina model catalyst supports

Author

J Pavluch, Vladimír Matolín, Bernard Gruzza, Dagou A. Zeze, and I Stará

Subjects

Aluminium oxides, Materials science, Surface plasmon, Oxide, General Physics and Astronomy, chemistry.chemical_element, Mineralogy, Surfaces and Interfaces, General Chemistry, Thermal treatment, Condensed Matter Physics, Surfaces, Coatings and Films, Catalysis, chemistry.chemical_compound, chemistry, Chemical engineering, Aluminium, Surface layer, Stoichiometry

Abstract

Stoichiometry of alumina surface can influence the catalytic properties of alumina supported catalysts. Different types of the (0001) α-alumina surface were prepared by thermal treatment under atmosphere or vacuum and by ion sputtering. Heating under vacuum and ion sputtering lead to the formation of an aluminium rich surface layer. This is observed via an excitation of the Al surface plasmon and an increase of the Al/O Auger intensity ratio. Heating of the alumina crystal under air gives well stoichiometric oxide surface. But γ-alumina layer prepared by thermal heating of aluminium under air exhibits a lack of oxygen without formation of an Al rich surface film.

Published

1997

14. Molecular beam study of CO and O2 sticking coefficients on Rh model catalysts

Author

Václav Nehasil, I. Stará, and Vladimír Matolín

Subjects

Surface diffusion, Sticking coefficient, Chemistry, Diffusion, Analytical chemistry, Mineralogy, Surfaces and Interfaces, Condensed Matter Physics, Evaporation (deposition), Surfaces, Coatings and Films, Adsorption, Materials Chemistry, Crystallite, Molecular beam, FOIL method

Abstract

The adsorption of CO and O 2 on Rh foil and Rh small particles supported by an Al 2 O 3 polycrystalline substrate were investigated by means of a molecular beam technique. The supported Rh particles of different sizes were prepared by evaporation using the principle of electron bombardment. The Rh foil used was plane annealed and Ar + ion bombarded. The effect of Rh surface morphology on the results is discussed. All the sticking coefficients obtained on small particles show that the part of adsorbed molecules reach the Rh particles by diffusion across the Al 2 O 3 substrate. The diameters of the diffusion zones are calculated.

Published

1997

15. Study of CO interaction with alumina-supported Pd particles

Author

I. Jungwirthová, Vladimír Matolín, and I. Stará

Subjects

Surface diffusion, Sticking coefficient, Thermal desorption spectroscopy, Chemistry, Surfaces and Interfaces, Condensed Matter Physics, Dissociation (chemistry), Surfaces, Coatings and Films, Catalysis, Adsorption, Materials Chemistry, Physical chemistry, Sticking probability, Stoichiometry

Abstract

Anomalous effects such as the enhanced sticking probability of CO and O 2 and the partial CO dissociation were measured on small Pd particles deposited on γ-alumina. Recently, a dependence of the sticking coefficient on the substrate has also been reported on Pd (0001) α-alumina but no dissociation has been observed in this case. We present a detail study of CO adsorption/desorption and catalytic reaction properties for a series of alumina substrates. Particularly, we used α-alumina of surface orientations (0001) and (1102). Before the Pd deposition, the substrates were exposed to annealing at different temperatures in vacuum and in the air. The adsorption and reaction parameters of Pd particles change with crystallographical structure and stoichiometry of the substrate surface, essentially due to the effect of reactants diffusion over the substrate.

Published

1997

16. Influence of substrate structure on activity of alumina supported Pd particles: CO adsorption and oxidation

Author

Vladimír Matolín, I. Stará, and Václav Nehasil

Subjects

Thermal oxidation, Surface diffusion, Sticking coefficient, Stereochemistry, Chemistry, chemistry.chemical_element, Surfaces and Interfaces, Condensed Matter Physics, Surfaces, Coatings and Films, Catalysis, chemistry.chemical_compound, Adsorption, Chemical engineering, Aluminium, Materials Chemistry, Aluminium oxide, Sticking probability

Abstract

Recently the unexpected effects of partial CO dissociation were reported for small Pd particles deposited on γ-alumina, prepared by thermal oxidation of aluminium whilst this behaviour was not observed on Pd α- alumina model catalysts. In this study we compared the CO adsorption and oxidation properties of Pd particles deposited on α-alumina substrates of different surface stoichiometry with those of Pd on γ-alumina. It was shown that the oxygen adsorption capacity as well as the reactivity of α-alumina supported catalysts was lower than those of γ-alumina supported catalysts. The CO and oxygen sticking probability measurements indicated the CO and O diffusion over the support that in the case of CO decreased with T. The temperature dependent CO oxidation rate was explained in terms of its limitation by the CO diffusion process which is less important in the case of the aluminium rich alumina surface.

Published

1996

17. Size effect study of carbon monoxide oxidation by Rh surfaces

Author

Václav Nehasil, I. Stará, and Vladimír Matolín

Subjects

Chemistry, Inorganic chemistry, Analytical chemistry, Surfaces and Interfaces, Condensed Matter Physics, Evaporation (deposition), Surfaces, Coatings and Films, chemistry.chemical_compound, Adsorption, Catalytic oxidation, Materials Chemistry, Aluminium oxide, Particle size, Molecular beam, FOIL method, Carbon monoxide

Abstract

The catalytic oxidation of CO on Rh foil and small Rh particles supported by Al 2 O 3 polycrystalline surfaces was studied by the transient experiment of molecular beam surface scattering technique. The supported Rh particles were prepared by evaporation, using the principle of electron bombardment. The results show the dependence of the CO 2 production rate on surface morphology and particle size. The defect rich Rh foil surface and smaller particles were found to be more active. The high oxygen adsorption capacity of 2.5 nm particles as well as their time dependent form of the CO 2 production rate is explained by the oxygen diffusion into the subsurface region.

Published

1996

18. Study of CO desorption and dissociation on Rh surfaces

Author

I. Stará, Vladimír Matolín, and Václav Nehasil

Subjects

Thermal desorption spectroscopy, Analytical chemistry, chemistry.chemical_element, Surfaces and Interfaces, Activation energy, Condensed Matter Physics, Dissociation (chemistry), Surfaces, Coatings and Films, Rhodium, Adsorption, chemistry, Chemisorption, Desorption, Materials Chemistry, Crystallite

Abstract

The adsorption of CO on Rh foil and small Rh particles supported by Al 2 O 3 polycrystalline surfaces was studied using temperature programmed desorption (TPD). The supported Rh particles were prepared by evaporation, using the principles of electron bombardment. The activation energy of desorption was calculated. The results show the dependence on the CO exposure of the sample as well as the size effect. Desorption and recombination peaks were measured. During CO desorption the CO 2 production was followed. The dependence of CO oxidation rate on the kind of sample is discussed.

Published

1995

19. The influence of particle size on CO adsorption on Pd/alumina model catalysts

Author

I. Stará, Václav Nehasil, and Vladimír Matolín

Subjects

Chemistry, Thermal desorption spectroscopy, Binding energy, Inorganic chemistry, Analytical chemistry, Surfaces and Interfaces, Activation energy, Condensed Matter Physics, Dissociation (chemistry), Surfaces, Coatings and Films, Adsorption, Chemisorption, Desorption, Materials Chemistry, Particle size

Abstract

The adsorption of CO on Pd(111) and small Pd particles deposited on an alumina support has been studied by means of temperature programmed desorption (TPD) using a molecular beam doser. The supported Pd particles with an average size of 27 and 2.5 nm were prepared by electron bombardment induced thermal evaporation. The CO desorption data were obtained for the Pd particles as well as for a Pd(111) single crystal. Major differences in the Pd particle and single crystal data were observed. On the 2.5 nm Pd particle surface different CO adsorption states were found. The decay in CO adsorption capacity during repeated adsorption/desorption cycles caused by simultaneous accumulation of surface carbon from partial CO dissociation was monitored. It is shown that surface carbon formation reduces the value of desorption activation energy for the adsorption state with higher binding energy. The calculated activation energy of desorption shows that CO desorption kinetics is particle size dependent.

Published

1994

20. Study of desorption activation energy on Rh-CO systems

Author

I. Stará, Václav Nehasil, and Vladimír Matolín

Subjects

Adsorption, Materials science, Thermal desorption spectroscopy, Desorption, Analytical chemistry, General Physics and Astronomy, Activation energy, Crystallite, Atomic physics, FOIL method, Soft laser desorption, Dissociation (chemistry)

Abstract

The adsorption of CO on an Rh foil and small Rh particles supported by Al2O3 polycrystalline surfaces was studied using the temperature programmed desorption (TPD). The supported Rh particles were prepared by evaporation, using the principles of electron bombardment. The activation energy of desorption was calculated. The results show the dependence on the CO exposure of the sample as well as the size effect. The desorption and the recombination peaks were measured. The dissociation of CO and the influence of C atoms on the surface are discussed.

Published

1993

21. Molecular beam study of CO chemisorption on alumina-supported Pd particles

Author

Vladimír Matolín, I. Stará, and E. Tomková

Subjects

Sticking coefficient, Materials science, Diffusion, General Physics and Astronomy, chemistry.chemical_element, chemistry.chemical_compound, Adsorption, chemistry, Chemisorption, Physical chemistry, Sticking probability, Molecular beam, Carbon monoxide, Palladium

Abstract

The adsorption of carbon monoxide on small alumina-supported Pd particles and on a Pd(111) single crystal has been studied with a molecular beam techniques. The measured sticking coefficient shows that CO adsorbs on palladium surface according to precursor states. It is noted that a temperature dependent diffusion of gas molecules on the support influences the sticking probability of CO.

Published

1993

22. Dyserythropoiesis in Acute Lymphoblastic Leukemia of Childhood

Author

O. Hrodek, I. Stará, and J. Šrajer

Subjects

business.industry, Bone Marrow Smear, Lymphoblastic Leukemia, Complete remission, Disease, medicine.anatomical_structure, hemic and lymphatic diseases, Cancer research, Erythroid cell, Medicine, Erythropoiesis, Bone marrow, business, INDUCTION TREATMENT

Abstract

The purpose of this study was to review bone marrow appearances of erythroid cells in children with acute lymphoblastic leukemia (ALL) in order to assess the extent of dyserythropoiesis at two phases of disease: at diagnosis and after multidrug induction treatment at the beginning of complete remission.

Published

1985

23. Dyserythropoiesis in acute lymphoblastic leukemia of childhood

Author

O, Hrodek, I, Stará, and J, Srajer

Subjects

Erythroblasts, Staining and Labeling, Bone Marrow, Humans, Erythropoiesis, Child, Leukemia, Lymphoid

Published

1985

24. EELS investigation of Pd thin film growth on Nb substrate

Author

Bernard Gruzza, S. Zuber, I. Stará, and Vladimír Matolín

Subjects

Chemistry, Niobium, Analytical chemistry, chemistry.chemical_element, Substrate (electronics), Condensed Matter Physics, Surfaces, Coatings and Films, Catalysis, Chemical engineering, Transition metal, Thin film, Instrumentation, Bimetallic strip, Layer (electronics), Palladium

Abstract

Using multi-component catalysts offers the possibility to optimize the individual reaction steps. In the last decades, great attention has been focused on bimetallic systems, representing the next step from monometallic catalysts to multi-component ones. However, this approach requires detailed knowledge of both the influence of individual components and their mutual cooperation. In the study of these factors it is advantageous to use ultra-high vacuum conditions where well-defined-metal surfaces, so-called model catalysts, can be prepared and characterized by modern surface-science techniques. The Pd/Nb model catalysts were prepared by depositing a small amount of palladium on polycrystalline niobium substrates. The film growth was investigated via variations of intensity ratio of excited Pd and Nb plasmons. It has been found that Pd-Nb interface was formed by a continuous Pd layer growing on Nb substrate.

25. Influence of surface structure on the mechanism of CO adsorption and catalytic oxidation on palladium

Author

I. Stará and Vladimír Matolín

Subjects

Thermal oxidation, Chemistry, Inorganic chemistry, Surfaces and Interfaces, Condensed Matter Physics, Surfaces, Coatings and Films, Catalysis, chemistry.chemical_compound, Adsorption, Catalytic oxidation, Desorption, Materials Chemistry, Particle size, Sticking probability, Carbon monoxide

Abstract

The adsorption and oxidation of carbon monoxide on small alumina-supported Pd particles have been studied by temperature-programmed desorption (TPD) using molecular beam techniques. The results of size effect studies show clearly different surface properties of bulk metal and supported clusters. Surprising effect of partical CO dissociation was observed on small Pd particles deposited on γ-alumina, prepared by thermal oxidation of aluminum, and not on Pd/α-alumina model catalysts. The activation energy of CO desorption, Ed, was determined as a function of particle size. The Ed decreased with decreasing particle size. The CO and oxygen sticking probability measurements indicated the CO and oxygen diffusion over the support. It was shown that the oxygen adsorption capacity and the reactivity of alumina-supported catalysts were higher than those of Pd(111).

26. TPD and XPS study of the CO adsorption on transition-SP metal systems: Pd and Al

Author

Nataliya Tsud, Vladimír Matolín, Viktor Johánek, and I. Stará

Subjects

Adsorption, Transition metal, X-ray photoelectron spectroscopy, Chemistry, Desorption, Binding energy, Analytical chemistry, Thermal desorption, Condensed Matter Physics, Instrumentation, Bimetallic strip, Surfaces, Coatings and Films, Vacuum evaporation

Abstract

CO adsorption properties of the bimetallic Pd/Al systems have been studied using thermally programmed desorption (TPD) and X-ray photoelectron spectroscopy (XPS) under UHV conditions. The samples were prepared by vacuum evaporation of Pd onto pure Al substrates. Measured TPD and XPS spectra of CO from bimetallic surfaces were compared to the ones of clean bulk metals. The deposited Pd ad-layers exhibited strong interaction with Al support, which determined the chemical activity of Pd towards interaction with CO. The formation of PdAl alloy of noble metal-like electronic structure with the d-band centered at 4.5 eV below Fermi level was observed. The Pd 3d 5/2 core level exhibited binding energy 1.8 eV higher than that of the surface atoms of bulk Pd with further slight increase finishing at 2.1 eV. The thermal desorption spectra of CO from the Pd/Al system consists of two peaks, both lower than those from Pd foil, indicating a distinct weakening in the strength of the CO adsorption bond. Heating induced alloying, an appearance of surface oxygen and a carbon contamination on bimetallic surfaces were observed. The correspondence of these effects with the character of electronic interaction between Pd and Al is discussed.

27. SSIMS and XPS studies of reconstruction of alumina-supported rh particles

Author

J.-P. Di Salvo, Vladimír Matolín, I. Stará, Václav Nehasil, and E. Gillet

Subjects

Coalescence (physics), Static secondary-ion mass spectrometry, Materials science, Analytical chemistry, chemistry.chemical_element, Surfaces and Interfaces, Condensed Matter Physics, Surfaces, Coatings and Films, Rhodium, X-ray photoelectron spectroscopy, chemistry, Materials Chemistry, Particle, Crystallite, Particle size, Dispersion (chemistry)

Abstract

Rhodium particles were vapor-deposited on (-1012) α-alumina and polycrystalline γ-alumina substrates. Variations of morphological parameters during the growth and/or thermal annealing in vacuum, oxygen and CO atmosphere have been investigated by means of static SIMS and XPS. The ratios of Rh/substrate ion species and the Rh 3d electron binding energy variations indicated changes in metal coverage given by particle size and dispersion variations. The heating of as-deposited particles in vacuum led to the particle coalescence. On the other hand the oxygen interactions with particles gave an increase of particle dispersion.

28. Spectroscopic characterization of the on-surface induced (cyclo)dehydrogenation of a N-heteroaromatic compound on noble metal surfaces.

Author

Palacio I, Pinardi AL, Martínez JI, Preobrajenski A, Cossaro A, Jancarik A, Stará I, Starý I, Méndez J, Martín-Gago JA, and López MF

Abstract

New nanoarchitectures can be built from polycyclic aromatic hydrocarbons (PAHs) by exploiting the capability of some metal surfaces for inducing cyclodehydrogenation reactions. This bottom-up approach allows the formation of nanostructures with a different dimensionality from the same precursor as a consequence of the diffusion and coupling of the PAHs adsorbed on the surface. In this work we present a thorough study, by means of a combination of X-ray photoemission spectroscopy, near-edge X-ray absorption fine structure and scanning tunneling microscopy with first principle calculations of the structural and chemical transformations undergone by pyridyl-substituted dibenzo[5]helicene on three coinage surfaces, namely Cu(110), Cu(111) and Au(111). Upon annealing, on-surface chemical reactions are promoted affecting the adsorbate/substrate and the molecule/molecule interactions. This thermally induced process favours the transformation from diffusing isolated molecules to polymeric nanographene chains and finally to N-doped graphene.

Published

2017