H. Wulff scite author profile

Substitutional solid solutions of metal hexacyanometalates in which low-spin iron(III) and cobalt(III) ions populate the carbon-coordinated sites were synthesized and studied by powder diffraction including Rietveld refinement, cyclic voltammetry of immobilized microparticles, diffuse reflection vis-spectrometry, and magnetization techniques. The continuous solid solution series of potassium copper(II), potassium nickel(II), and iron(III) [(hexacyanoferrate(III))(1-x)(hexacyanocobaltate(III))(x)] show that the substitution of low-spin iron(III) by cobalt(III) in the hexacyanometalate units more strongly affects the formal potentials of the nitrogen-coordinated copper(II) and high-spin iron(III) ions than those of the remaining low-spin iron(III) ions. In the case of copper(II) and iron(III) [(hexacyanoferrate(III))(1-x)(hexacyanocobaltate(III))(x)] the peak currents decrease much more than can be explained by stoichiometry, indicating that the charge propagation is slowed by the substitution of low-spin iron(III) by cobalt(III). The Rietveld refinement of all compounds confirmed the structure initially proposed by Keggin for Prussian blue and contradicts the structure described later by Ludi. The dependencies of lattice parameters on composition exhibit in all series of solid solutions studied similar, although small, deviations from ideality, which correlate with the electrochemical behavior. Finally, a series of solid solutions of the composition KNi(0.5)(II)Cu(0.5)(II)[Fe(III)(CN)(6)](1-x)[Co(III)(CN)(6)](x), where both the nitrogen- and carbon-coordinated metal ions are mixed populated and were synthesized and characterized. These are the first examples of solid solutions of metal hexacyanometalates with four different metal ions, where both the nitrogen- and the carbon-coordinated sites possess a mixed population.

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Structural deformation, melting point and lattice parameter studies of size selected silver clusters

Ibrahimkutty

et al. 2005

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Deposition of thin titanium–copper films with antimicrobial effect by advanced magnetron sputtering methods

Straňák

Wulff

Rebl

et al. 2011

Materials Science and Engineering: C

118

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Formation of TiO_xfilms produced by high-power pulsed magnetron sputtering

Straňák¹,

Quaas²,

Wulff³

et al. 2008

J. Phys. D: Appl. Phys.

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Formation of thin TiOx films produced by pulsed planar magnetron sputtering deposition is reported in this paper. The formation process and layer growth were controlled by (i) the ratio of reactive O2 in Ar/O2 working gas mixture and (ii) the pressure in the vacuum chamber. The magnetron, operated in a high-power pulse mode with a low repetition frequency of 250 Hz, reached maxima peak current Ip ∼ 50 A and magnetron current density peaks at ip ∼ 1 A cm−2. Particular spectral lines (Ar = 420.07 nm, Ar+ = 487.98 nm, Ti = 518.96 nm) emitted by the discharge were investigated using time-resolved photon counting measurements. The phases of deposited TiOx films were determined by grazing incidence x-ray diffractometry and thickness and density were calculated from x-ray reflectometry measurements; in addition composition and chemical bounds were revealed by x-ray photoelectron spectroscopy. The film diagnostics survey the existence of different crystalline phases in the Ti–O system and their formation. Discharge properties for example, deposition rate and time evolution of discharge current are also discussed.

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Evaluation of catalytic properties of tungsten carbide for the anode of microbial fuel cells

Rosenbaum

Zhao

Quaas

et al. 2007

Applied Catalysis B: Environmental

125

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Structural studies of ITO thin films with the Rietveld method

1998

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Physical properties of homogeneous TiO₂films prepared by high power impulse magnetron sputtering as a function of crystallographic phase and nanostructure

Straňák¹,

Čada²,

Quaas³

et al. 2009

J. Phys. D: Appl. Phys.

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Optical, photo-electrochemical, crystallographic and morphological properties of TiO2 thin films prepared by high power impulse magnetron sputtering at low substrate temperatures (<65 °C) without post-deposition thermal annealing are studied. The film composition—anatase, rutile or amorphous TiO2—is adjusted by the pressure (p ∼ 0.75–15 Pa) in the deposition chamber. The different crystallographic phases were determined with grazing incidence x-ray diffractometry. The surface morphology and size of TiO2 grains/clusters were imaged with atomic force microscopy. Basic plasma parameters were determined by means of the time-resolved Langmuir probe technique. The power density influx on the substrate was estimated from calorimetric probe measurement. The data from calorimetric probe measurements and time-resolved Langmuir probe served as input parameters for the calculation of influx contributions of particular species. The band-gap energy Eg depends on the film composition and crystallographic phase. Optical parameters (refractive index n + ik, transmittance T, reflectance R and absorbance A) are measured as functions of photon energy in the UV–Vis range by spectroscopic ellipsometry. For the rutile and anatase films agreement with the respective bulk phase is found. Incident photon-current conversion efficiency determined by photo-electrochemical measurements reached the highest values (0.312) for the anatase film.

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Characterization of a Magnetron Plasma for Deposition of Titanium Oxide and Titanium Nitride Films

Hippler

Wrehde

Straňák

et al. 2005

Contrib. Plasma Phys.

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Experimental results for the energy distribution of electrons and plasma ions in a magnetron discharge with a titanium target and with pure argon, argon/nitrogen and argon/oxygen mixtures as working gas are reported. Typical electron temperatures measured 6.5....9.5 cm above the magnetron target range between 2-3.5 eV. Typical values for the plasma potential are in the 0.4-2 V range, as are mean ion energies measured with the help of energy-resolved mass spectrometry. Deposited titanium films show some dependencies on oxygen flow and on substrate bias.

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H. Wulff

Structure, Insertion Electrochemistry, and Magnetic Properties of a New Type of Substitutional Solid Solutions of Copper, Nickel, and Iron Hexacyanoferrates/Hexacyanocobaltates

Structural deformation, melting point and lattice parameter studies of size selected silver clusters

Deposition of thin titanium–copper films with antimicrobial effect by advanced magnetron sputtering methods

Formation of TiO_xfilms produced by high-power pulsed magnetron sputtering

Evaluation of catalytic properties of tungsten carbide for the anode of microbial fuel cells

Structural studies of ITO thin films with the Rietveld method

Physical properties of homogeneous TiO₂films prepared by high power impulse magnetron sputtering as a function of crystallographic phase and nanostructure

Characterization of a Magnetron Plasma for Deposition of Titanium Oxide and Titanium Nitride Films

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H. Wulff

Structure, Insertion Electrochemistry, and Magnetic Properties of a New Type of Substitutional Solid Solutions of Copper, Nickel, and Iron Hexacyanoferrates/Hexacyanocobaltates

Structural deformation, melting point and lattice parameter studies of size selected silver clusters

Deposition of thin titanium–copper films with antimicrobial effect by advanced magnetron sputtering methods

Formation of TiOxfilms produced by high-power pulsed magnetron sputtering

Evaluation of catalytic properties of tungsten carbide for the anode of microbial fuel cells

Structural studies of ITO thin films with the Rietveld method

Physical properties of homogeneous TiO2films prepared by high power impulse magnetron sputtering as a function of crystallographic phase and nanostructure

Characterization of a Magnetron Plasma for Deposition of Titanium Oxide and Titanium Nitride Films

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Product

Resources

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Formation of TiO_xfilms produced by high-power pulsed magnetron sputtering

Physical properties of homogeneous TiO₂films prepared by high power impulse magnetron sputtering as a function of crystallographic phase and nanostructure