Your search keyword '"N. Homazava"' showing total 7 results

1. Investigation of corrosion behavior of biodegradable Mg alloys using an online-micro-flow capillary flow injection inductively coupled plasma mass spectrometry setup with electrochemical control

Author

Patrik Schmutz, A. Tournier-Fillon, Andrea Ulrich, N. Homazava, and Noemie Ott

Subjects

Materials science, Biocompatibility, Magnesium, Capillary action, Alloy, Metallurgy, chemistry.chemical_element, engineering.material, Atomic and Molecular Physics, and Optics, Analytical Chemistry, Corrosion, chemistry, Impurity, engineering, Instrumentation, Dissolution, Inductively coupled plasma mass spectrometry, Spectroscopy

Abstract

The development of biodegradable metallic materials designed for implants or medical stents is new and is one of the most interesting new fields in material science. Besides biocompatibility, a detailed understanding of corrosion mechanisms and dissolution processes is required to develop materials with tailored degradation behavior. The materials need to be sufficiently stable as long as they have to fulfill their medical task. However, subsequently they should dissolve completely in a controlled manner in terms of maximum body burden. This study focuses on the elemental and time resolved dissolution processes of a magnesium rare earth elements alloy which has been compared to pure magnesium with different impurity level. The here described investigations were performed using a novel analytical setup based on a micro-flow capillary online-coupled via a flow injection system to a plasma mass spectrometer. Differences in element-specific and time-dependent dissolution were monitored for various magnesium alloys in contact with sodium chloride or mixtures of sodium and calcium chloride as corrosive media. The dissolution behavior strongly depends on bulk matrix elements, secondary alloying elements and impurities, which are usually present even in pure magnesium.

Published

2011

2. On the magnetism, thermal- and electrical transport of SrMoO2N

Author

Karel Knížek, P. Tomeš, Rosiana Aguiar, Anke Weidenkaff, Miroslav Maryško, Jiri Hejtmanek, Armin Reller, D. Logvinovich, N. Homazava, and Stefan G. Ebbinghaus

Subjects

Paramagnetism, symbols.namesake, Materials science, Thermal conductivity, Condensed matter physics, Electrical resistivity and conductivity, Seebeck coefficient, Fermi level, symbols, General Physics and Astronomy, Curie temperature, Atmospheric temperature range, Magnetic susceptibility

Abstract

Physical properties of perovskite-type SrMoO2N phases were studied in the temperature range of 3 K

Published

2009

3. Structure, microstructure, and high-temperature transport properties of La1−xCaxMnO3−δ thin films and polycrystalline bulk materials

Author

Myriam H. Aguirre, T. Lippert, N. Homazava, Max Döbeli, Stela Canulescu, D. Logvinovich, Laura Bocher, R. Robert, and Anke Weidenkaff

Subjects

Crystallography, Materials science, Electron diffraction, Seebeck coefficient, Analytical chemistry, General Physics and Astronomy, Crystallite, Thin film, Microstructure, Superstructure (condensed matter), Soft chemistry, Monoclinic crystal system

Abstract

Single-phase samples of La1−xCaxMnO3−δ (LCMO), x≈0.3, prepared by pulsed reactive crossed beam laser ablation on SrTiO3 (STO) substrates, and soft chemistry synthesized powders were studied by various methods. The precise study of the crystal structure and microstructures by a combination of electron diffraction and high-resolution electron microscopy revealed a monoclinic distortion of the GdFeO3-type structure, P21/c space group, in both types of materials, i.e., the thin films and powder compound. The analysis of the LCMO/STO interface showed nonhomogeneous stress states and a composition that results in a different superstructure from the usual detected structure. The temperature-dependent thermoelectric power in the case of thin films presented an anomalous behavior compared to those from the powder compound. A structural transition at high temperature (T≈750 K) influences the thermopower behavior as well as the thermal conductivity values.

Published

2008

4. Online hyphenation of potentiostat to a micro-flow-capillary FI-ICP-MS for simultaneous in situ electrochemical, time and element resolved characterization of local corrosion processes - An applicatio

Author

N. Homazava T. Suter P. Schmutz S. Toggweiler A. Grimberg U. Krähenbühl A. Ulrich

Abstract

A novel technique based on an online hyphenation of an electrochemical control to a microflow capillary FI ICP MS set up is developed for the local investigation of corrosion processes. Construction and analytical optimization steps are presented in detail. The novel microflow capillary FI ICP MS technique with simultaneous electrochemical control enables acquisition of electrochemical and chemical element resolved data at the same time. Precise characterization of the local dissolution corrosion processes is achieved with the new technique. The capabilities of the new hyphenated technique are demonstrated for the example of zirconium bulk metallic glasses which are prospective materials for various industrial applications. The corrosion susceptibility of Zr(58.5)Cu(15.6)Ni(12.8)Al(10.3)Nb(2.8) in 0.1 M HCl 0.1 M NaCl and 0.001 M NaCl was evaluated at open circuit potential and during electrochemical potentiodynamic polarization of the sample surface. A preferential release of less noble elements like Ni and Al from bulk metallic glass was revealed whereas the dissolution of Cu from the material was strongly hindered.

5. Wastewater alters feeding rate but not vitellogenin level of Gammarus fossarum (Amphipoda).

Author

Ganser B, Bundschuh M, Werner I, Homazava N, Vermeirssen ELM, Moschet C, and Kienle C

Subjects

Animals, Eating drug effects, Ecotoxicology methods, Environmental Biomarkers, Estrogens analysis, Switzerland, Vitellogenins analysis, Water Pollutants, Chemical toxicity, Water Quality, Amphipoda drug effects, Amphipoda physiology, Vitellogenins metabolism, Wastewater toxicity

Abstract

Wastewater treatment plant (WWTP) effluents release complex mixtures of organic and inorganic micropollutants, including endocrine disrupting compounds, into receiving water bodies. These substances may cause adverse effects in aquatic communities as well as in ecosystem functions they provide. The aim of this study was to determine the potential impact of secondary treated wastewater released into a small Swiss stream on leaf litter decomposition based on feeding rates of the amphipod shredder Gammarus fossarum measured in situ. Additionally, endocrine disrupting effects downstream of the WWTP were investigated by measuring vitellogenin (vg) induction in male gammarids exposed in situ, as well as estrogen receptor activation using the Yeast Estrogen Screen (YES) involving passive sampler and grab water sample extracts. Extracts were also analysed for 424 organic micropollutants and selected transformation products. Gammarid feeding rate was significantly reduced 100, 200 and 400 m downstream of the WWTP effluent relative to the upstream site. While YES results showed significantly elevated estrogenicity at downstream sites, vg production in male gammarids was not induced. A laboratory experiment, in which gammarids were exposed to WWTP effluent, supported this observation. These results, hence, suggest that treated wastewater released into aquatic ecosystems impairs the ecosystem function of leaf litter decomposition. Vg levels in male gammarids measured by UPLC-MS/MS did, however, not alter., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2019

6. The influence of particles on bioavailability and toxicity of pesticides in surface water.

Author

Knauer K, Homazava N, Junghans M, and Werner I

Subjects

Animals, Ecotoxicology, Invertebrates, Models, Theoretical, Aquatic Organisms, Environmental Monitoring, Pesticides toxicity, Water Pollutants, Chemical toxicity

Abstract

Environmental risk assessment is an essential part of the approval process for pesticides. Exposure concentrations are compared with ecotoxicological data obtained from standardized laboratory studies and, if available, from field studies to determine the risk of a substance or formulation for aquatic communities. Predicted concentrations in surface waters are derived using, for example, the European FOrum for the Co-ordination of pesticide fate models and their USe (FOCUS) or the German Exposit models, which distinguish between exposure to dissolved and particle-associated pesticide concentrations, because the dissolved concentration is thought to be the best predictor of bioavailability and toxicity. Water and particle-associated concentrations are estimated based on the organic carbon-water partitioning coefficient (K OC ). This review summarizes published information on the influence of natural suspended solids on bioavailability and toxicity of pesticides to aquatic organisms (algae, invertebrates and fish), and the value of log K OC and log K OW (octanol-water coefficient) as sole predictors of the bioavailable fraction is discussed. The information showed that: 1) the quality and origin of suspended solids played an important role in influencing pesticide bioavailability and toxicity; 2) a decrease in toxicity due to the presence of suspended solids was shown only for pyrethroid insecticides with log K OW greater than 5, but the extent of this reduction depended on particle concentration and size, and potentially also on the ecotoxicological endpoint; 3) for pesticides with a log K OW less than 3 (e.g., triazines, carbamates, and organophosphates), the impact of particles on bioavailability and toxicity is small and species dependent; and 4) pesticide bioavailability is greatly influenced by the test species and their physiology (e.g., feeding behavior or digestion). We conclude that exposure of aquatic organisms to pesticides and environmental risk of many pesticides might be underestimated in prospective risk assessment, when predicted environmental concentration is estimated based on the K OC of a compound. Integr Environ Assess Manag 2017;13:585-600. © 2016 SETAC., (© 2016 SETAC.)

Published

2017

7. In vitro bioassays to screen for endocrine active pharmaceuticals in surface and waste waters.

Author

Kunz PY, Kienle C, Carere M, Homazava N, and Kase R

Subjects

Animals, Diclofenac analysis, Estradiol analysis, Ethinyl Estradiol analysis, Europe, Humans, Risk Assessment methods, Wastewater analysis, Endocrine Disruptors analysis, Environmental Monitoring methods, Water Pollutants, Chemical analysis

Abstract

In the context of the European Water Framework Directive (WFD) it is fully recognized that pharmaceuticals can represent a relevant issue for the achievement of the good chemical and ecological status of European surface water bodies. The recent European Directive on the review of priority substances in surface water bodies has included three pharmaceuticals of widespread use (diclofenac, 17α-ethinylestradiol (EE2), 17β-estradiol (E2)) in the European monitoring list, the so-called watch list. Endocrine active pharmaceuticals such as EE2 and E2 (also occurring as natural hormone) can cause adverse effects on aquatic ecosystems at very low levels. However, monitoring of these pharmaceuticals within the watch list mechanism of the WFD and national monitoring programs can be difficult because of detection problems of most routine analytical methods. With proposed annual average Environmental Quality Standards (AA-EQS) of 0.035 ng/L and 0.4 ng/L, respectively, the estrogenic pharmaceutical EE2 and the natural hormone E2 are among those substances. Sensitive in vitro bioassays could reduce the current detection problems by measuring the estrogenic activity of environmental samples. In a short review article the application of this approach to screen and assess the risks of endocrine active pharmaceuticals with a focus on estrogenic pharmaceuticals in environmental waters is discussed., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published

2015