Your search keyword '"Adelhelm, Christel"' showing total 13 results

1. Reduction of impurities and activation of lithium orthosilicate breeder materials

Author

Knitter, Regina, Fischer, Ulrich, Herber, Stefan, and Adelhelm, Christel

Published

2009

2. Characterization of nanoparticle batch-to-batch variability

Author

Mülhopt, Sonja, Diabaté, Silvia, Dilger, Marco, Adelhelm, Christel, Anderlohr, Christopher, Bergfeldt, Thomas, Gómez de la Torre, Johan, Jiang, Yunhong, Valsami-Jones, Eugenia, Langevin, Dominique, Lynch, Iseult, Mahon, Eugene, Nelissen, Inge, Piella, Jordi, Puntes, Víctor, Ray, Sikha, Schneider, Reinhard, Wilkins, Terry, Weiss, Carsten, Paur, Hanns-Rudolf, German Research Foundation, European Commission, Karlsruhe Institute of Technology, Diabaté, Silvia [0000-0001-6702-4769], Bergfeldt, Thomas [0000-0003-4595-7968], Jiang, Yunhong [0000-0003-3292-8164], Valsami-Jones, Eugenia [0000-0002-8850-7556], Lynch, Iseult [0000-0003-4250-4584], Nelissen, Inge [0000-0002-1248-3463], Paur, Hanns-Rudolf [0000-0001-5133-9459], Diabaté, Silvia, Bergfeldt, Thomas, Jiang, Yunhong, Valsami-Jones, Eugenia, Lynch, Iseult, Nelissen, Inge, and Paur, Hanns-Rudolf

Subjects

BTA, F200, Pharmacology and Toxicology, C500, Particle size, Farmakologi och toxikologi, C700, Nanosafety, Article, lcsh:Chemistry, lcsh:QD1-999, Teknik och teknologier, Engineering and Technology, ddc:620, Reactive oxygen species, Engineering & allied operations, Impurities

Abstract

A central challenge for the safe design of nanomaterials (NMs) is the inherent variability of NM properties, both as produced and as they interact with and evolve in, their surroundings. This has led to uncertainty in the literature regarding whether the biological and toxicological effects reported for NMs are related to specific NM properties themselves, or rather to the presence of impurities or physical effects such as agglomeration of particles. Thus, there is a strong need for systematic evaluation of the synthesis and processing parameters that lead to potential variability of different NM batches and the reproducible production of commonly utilized NMs. The work described here represents over three years of effort across 14 European laboratories to assess the reproducibility of nanoparticle properties produced by the same and modified synthesis routes for four of the OECD priority NMs (silica dioxide, zinc oxide, cerium dioxide and titanium dioxide) as well as amine-modified polystyrene NMs, which are frequently employed as positive controls for nanotoxicity studies. For 46 different batches of the selected NMs, all physicochemical descriptors as prioritized by the OECD have been fully characterized. The study represents the most complete assessment of NMs batch-to-batch variability performed to date and provides numerous important insights into the potential sources of variability of NMs and how these might be reduced., This research was funded by the European Commission’s 7th Framework Program research infrastructure project QualityNano (Grant Agreement No: INFRA-2010-262163). We acknowledge support by Deutsche Forschungsgemeinschaft and Open Access Publishing Fund of Karlsruhe Institute of Technology.

Published

2018

3. Characterization of Nanoparticle Batch-To-Batch Variability

Author

Muelhopt, Sonja, Diabate, Silvia, Dilger, Marco, Adelhelm, Christel, Anderlohr, Christopher, Bergfeldt, Thomas, Gómez de la Torre, Johan, Jiang, Yunhong, Valsami-Jones, Eugenia, Langevin, Dominique, Lynch, Iseult, Mahon, Eugene, Nelissen, Inge, Piella, Jordi, Puntes, Victor, Ray, Sikha, Schneider, Reinhard, Wilkins, Terry, Weiss, Carsten, Paur, Hanns-Rudolf, Muelhopt, Sonja, Diabate, Silvia, Dilger, Marco, Adelhelm, Christel, Anderlohr, Christopher, Bergfeldt, Thomas, Gómez de la Torre, Johan, Jiang, Yunhong, Valsami-Jones, Eugenia, Langevin, Dominique, Lynch, Iseult, Mahon, Eugene, Nelissen, Inge, Piella, Jordi, Puntes, Victor, Ray, Sikha, Schneider, Reinhard, Wilkins, Terry, Weiss, Carsten, and Paur, Hanns-Rudolf

Abstract

A central challenge for the safe design of nanomaterials (NMs) is the inherent variability of NM properties, both as produced and as they interact with and evolve in, their surroundings. This has led to uncertainty in the literature regarding whether the biological and toxicological effects reported for NMs are related to specific NM properties themselves, or rather to the presence of impurities or physical effects such as agglomeration of particles. Thus, there is a strong need for systematic evaluation of the synthesis and processing parameters that lead to potential variability of different NM batches and the reproducible production of commonly utilized NMs. The work described here represents over three years of effort across 14 European laboratories to assess the reproducibility of nanoparticle properties produced by the same and modified synthesis routes for four of the OECD priority NMs (silica dioxide, zinc oxide, cerium dioxide and titanium dioxide) as well as amine-modified polystyrene NMs, which are frequently employed as positive controls for nanotoxicity studies. For 46 different batches of the selected NMs, all physicochemical descriptors as prioritized by the OECD have been fully characterized. The study represents the most complete assessment of NMs batch-to-batch variability performed to date and provides numerous important insights into the potential sources of variability of NMs and how these might be reduced.

Published

2018

4. Characterization of nanoparticle batch-to-batch variability

Author

German Research Foundation, European Commission, Karlsruhe Institute of Technology, Diabaté, Silvia [0000-0001-6702-4769], Bergfeldt, Thomas [0000-0003-4595-7968], Jiang, Yunhong [0000-0003-3292-8164], Valsami-Jones, Eugenia [0000-0002-8850-7556], Lynch, Iseult [0000-0003-4250-4584], Nelissen, Inge [0000-0002-1248-3463], Paur, Hanns-Rudolf [0000-0001-5133-9459], Mülhopt, Sonja, Diabaté, Silvia, Dilger, Marco, Adelhelm, Christel, Anderlohr, Christopher, Bergfeldt, Thomas, Gómez de la Torre, Johan, Jiang, Yunhong, Valsami-Jones, Eugenia, Langevin, Dominique, Lynch, Iseult, Mahon, Eugene, Nelissen, Inge, Piella, Jordi, Puntes, Víctor F., Ray, Sikha, Schneider, Reinhard, Wilkins, Terry, Weiss, Carsten, Paur, Hanns-Rudolf, German Research Foundation, European Commission, Karlsruhe Institute of Technology, Diabaté, Silvia [0000-0001-6702-4769], Bergfeldt, Thomas [0000-0003-4595-7968], Jiang, Yunhong [0000-0003-3292-8164], Valsami-Jones, Eugenia [0000-0002-8850-7556], Lynch, Iseult [0000-0003-4250-4584], Nelissen, Inge [0000-0002-1248-3463], Paur, Hanns-Rudolf [0000-0001-5133-9459], Mülhopt, Sonja, Diabaté, Silvia, Dilger, Marco, Adelhelm, Christel, Anderlohr, Christopher, Bergfeldt, Thomas, Gómez de la Torre, Johan, Jiang, Yunhong, Valsami-Jones, Eugenia, Langevin, Dominique, Lynch, Iseult, Mahon, Eugene, Nelissen, Inge, Piella, Jordi, Puntes, Víctor F., Ray, Sikha, Schneider, Reinhard, Wilkins, Terry, Weiss, Carsten, and Paur, Hanns-Rudolf

Abstract

A central challenge for the safe design of nanomaterials (NMs) is the inherent variability of NM properties, both as produced and as they interact with and evolve in, their surroundings. This has led to uncertainty in the literature regarding whether the biological and toxicological effects reported for NMs are related to specific NM properties themselves, or rather to the presence of impurities or physical effects such as agglomeration of particles. Thus, there is a strong need for systematic evaluation of the synthesis and processing parameters that lead to potential variability of different NM batches and the reproducible production of commonly utilized NMs. The work described here represents over three years of effort across 14 European laboratories to assess the reproducibility of nanoparticle properties produced by the same and modified synthesis routes for four of the OECD priority NMs (silica dioxide, zinc oxide, cerium dioxide and titanium dioxide) as well as amine-modified polystyrene NMs, which are frequently employed as positive controls for nanotoxicity studies. For 46 different batches of the selected NMs, all physicochemical descriptors as prioritized by the OECD have been fully characterized. The study represents the most complete assessment of NMs batch-to-batch variability performed to date and provides numerous important insights into the potential sources of variability of NMs and how these might be reduced.

Published

2018

5. Chemical erosion by deuterium impact on carbon films doped with nanometer-sized carbide crystallites

Author

Balden, Martin, Adelhelm, Christel, Juan Pardo, Elena, Roth, Joachim, Balden, Martin, Adelhelm, Christel, Juan Pardo, Elena, and Roth, Joachim

Abstract

The erosion by 30 and 200 eV/D at temperatures between 300 and 1100 K was investigated for magnetron-sputtered films, consisting of carbon and metal (2–7 at.% W, Ti, Zr) present as nanometer-sized carbide crystallites. The total erosion yield was determined from weight-loss measurements and film thickness changes measured by RBS. The chemical erosion yield was obtained from the CD4 signal of mass spectrometry. The total erosion yield of doped films is reduced by a factor of 3–20 compared to pure C films. The CD4 production yield decreases less implying that the distribution of the chemically eroded species was changed by the dopants. Therefore, measuring only CD4 production or its spectroscopic signature could yield to misleading values and interpretations.

Published

2007

6. Synthesis of nanocrystalline solid solutions AlySn1−yO2−y/2 (y = 0.57, 0.4) investigated by XRD, 27Al/119Sn MAS NMR, and Mössbauer spectroscopy

Author

Issac, Ibrahim, primary, Heinzmann, Ralf, additional, Becker, Sebastian M., additional, Bräuniger, Thomas, additional, Zhao-Karger, Zhirong, additional, Adelhelm, Christel, additional, Kiran Chakravadhanula, V. S., additional, Kübel, Christian, additional, Ulrich, Anne S., additional, and Indris, Sylvio, additional

Published

2012

7. Nanocrystalline Ti2/3Sn1/3O2 as anode material for Li-ion batteries

Author

Issac, Ibrahim, primary, Scheuermann, Marco, additional, Becker, Sebastian M., additional, Bardají, Elisa Gil, additional, Adelhelm, Christel, additional, Wang, Di, additional, Kübel, Christian, additional, and Indris, Sylvio, additional

Published

2011

8. Innovative materials for energy technology

Author

Möslang, Anton, primary, Adelhelm, Christel, additional, and Heidinger, Roland, additional

Published

2008

9. Development of high power density cathode materials for Li-ion batteries

Author

Ketterer, Bernt, primary, Vasilchina, Hristina, additional, Seemann, Klaus, additional, Ulrich, Sven, additional, Besser, Heino, additional, Pfleging, Wilhelm, additional, Kaiser, Tatjana, additional, and Adelhelm, Christel, additional

Published

2008

10. Nanoparticulate Vanadium Oxide Potentiated Vanadium Toxicity in Human Lung Cells

Author

Wörle-Knirsch, Jörg M., primary, Kern, Katrin, additional, Schleh, Carsten, additional, Adelhelm, Christel, additional, Feldmann, Claus, additional, and Krug, Harald F., additional

Published

2006

11. Nanoparticulate Vanadium Oxide Potentiated Vanadium Toxicity in Human Lung Cells.

Author

Wörle-Knirsch, Jorg M., Kern, Katrin, Schleh, Carsten, Adelhelm, Christel, Feldmann, Claus, and Krug, Harald F.

Published

2007

12. Nanocrystalline Ti2/3Sn1/3O2 as anode material for Li-ion batteries

Author

Issac, Ibrahim, Scheuermann, Marco, Becker, Sebastian M., Bardají, Elisa Gil, Adelhelm, Christel, Wang, Di, Kübel, Christian, and Indris, Sylvio

Subjects

*NANOCRYSTALS, *TITANIUM dioxide, *ANODES, *LITHIUM-ion batteries, *MOLECULAR structure, *X-ray diffraction

Abstract

Abstract: We prepared nanocrystalline Ti2/3Sn1/3O2 by a coprecipitation method starting from Ti(isopropoxide)4 and SnCl4·5H2O followed by calcination at 600°C. TEM and XRD measurements reveal crystallite sizes of about 5nm and a crystal structure equivalent to those of TiO2 rutile and SnO2 cassiterite. The local structure was investigated with 119Sn NMR and Sn Mössbauer spectroscopy. The material was cycled with C/20 at voltages between 3.0 and 0.02V against Li metal. Specific capacities of 300mAhg−1 were obtained for 100 cycles with voltage profiles very similar to those of pure SnO2. Faster cycling leads to strong decrease of the capacities but after returning to C/20 the initial values are obtained. [Copyright &y& Elsevier]

Published

2011

13. Characterization of Nanoparticle Batch-To-Batch Variability.

Author

Mülhopt S, Diabaté S, Dilger M, Adelhelm C, Anderlohr C, Bergfeldt T, Gómez de la Torre J, Jiang Y, Valsami-Jones E, Langevin D, Lynch I, Mahon E, Nelissen I, Piella J, Puntes V, Ray S, Schneider R, Wilkins T, Weiss C, and Paur HR

Abstract

A central challenge for the safe design of nanomaterials (NMs) is the inherent variability of NM properties, both as produced and as they interact with and evolve in, their surroundings. This has led to uncertainty in the literature regarding whether the biological and toxicological effects reported for NMs are related to specific NM properties themselves, or rather to the presence of impurities or physical effects such as agglomeration of particles. Thus, there is a strong need for systematic evaluation of the synthesis and processing parameters that lead to potential variability of different NM batches and the reproducible production of commonly utilized NMs. The work described here represents over three years of effort across 14 European laboratories to assess the reproducibility of nanoparticle properties produced by the same and modified synthesis routes for four of the OECD priority NMs (silica dioxide, zinc oxide, cerium dioxide and titanium dioxide) as well as amine-modified polystyrene NMs, which are frequently employed as positive controls for nanotoxicity studies. For 46 different batches of the selected NMs, all physicochemical descriptors as prioritized by the OECD have been fully characterized. The study represents the most complete assessment of NMs batch-to-batch variability performed to date and provides numerous important insights into the potential sources of variability of NMs and how these might be reduced.

Published

2018