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  • (-) Empa Laboratories = 405 Transport at Nanoscale Interfaces
  • (-) Publication Year = 2006 - 2019
  • (-) Keywords ≠ reference material
  • (-) Journal ≠ Microelectronic Engineering
  • (-) Empa Laboratories = 499 Center for X-ray Analytics
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Physical vapour deposition of cyanine salts and their first application in organic electronic devices
Gesevičius, D., Neels, A., Duchêne, L., Hack, E., Heier, J., & Nüesch, F. (2019). Physical vapour deposition of cyanine salts and their first application in organic electronic devices. Journal of Materials Chemistry C, 7(2), 414-423. https://doi.org/10.1039/C8TC05286G
Polarized Raman spectroscopy as a method for quantitative analysis of bone fibril orientation
Kochetkova, T., Braun, O., Overbeck, J., Peruzzi, C., Maurya, A., Michler, J., … Schwiedrzik, J. (2019). Polarized Raman spectroscopy as a method for quantitative analysis of bone fibril orientation. Presented at the Annual Meeting 2019, Swiss Society for Biomedical Engineering (SSBE). Geneva, Switzerland.
Polarized raman spectroscopy as a method for quantitative analysis of bone fibril orientation
Kochetkova, T., Braun, O., Overbeck, J., Peruzzi, C., Maurya, A., Michler, J., … Schwiedrzik, J. (2019). Polarized raman spectroscopy as a method for quantitative analysis of bone fibril orientation. Presented at the Empa PhD students' symposium. St. Gallen, Switzerland.
Increasing photovoltaic performance of an organic cationic chromophore by anion exchange
Gesevičius, D., Neels, A., Jenatsch, S., Hack, E., Viani, L., Athanasopoulos, S., … Heier, J. (2018). Increasing photovoltaic performance of an organic cationic chromophore by anion exchange. Advanced Science, 5(2), 1700496 (9 pp.). https://doi.org/10.1002/advs.201700496
Superweak coordinating anion as superstrong enhancer of cyanine organic semiconductor properties
Gesevičius, D., Neels, A., Yakunin, S., Hack, E., Kovalenko, M. V., Nüesch, F., & Heier, J. (2018). Superweak coordinating anion as superstrong enhancer of cyanine organic semiconductor properties. ChemPhysChem, 19(24), 3356-3363. https://doi.org/10.1002/cphc.201800863
Epitaxial thin films as a model system for Li-Ion conductivity in Li<sub>4</sub>Ti<sub>5</sub>O<sub>12</sub>
Pagani, F., Stilp, E., Pfenninger, R., Reyes, E. C., Remhof, A., Balogh-Michels, Z., … Battaglia, C. (2018). Epitaxial thin films as a model system for Li-Ion conductivity in Li4Ti5O12. ACS Applied Materials and Interfaces, 10(51), 44494-44500. https://doi.org/10.1021/acsami.8b16519
Facile optimization of thermoelectric properties in PEDOT:PSS thin films through acido-base and redox dedoping using readily available salts
Saxena, N., Keilhofer, J., Maurya, A. K., Fortunato, G., Overbeck, J., & Müller-Buschbaum, P. (2018). Facile optimization of thermoelectric properties in PEDOT:PSS thin films through acido-base and redox dedoping using readily available salts. ACS Applied Energy Materials, 1(2), 336-342. https://doi.org/10.1021/acsaem.7b00334
Tb<sup>3+</sup>-doped LaF<sub>3</sub> nanocrystals for correlative cathodoluminescence electron microscopy imaging with nanometric resolution in focused ion beam-sectioned biological samples
Keevend, K., Stiefel, M., Neuer, A. L., Matter, M. T., Neels, A., Bertazzo, S., & Herrmann, I. K. (2017). Tb3+-doped LaF3 nanocrystals for correlative cathodoluminescence electron microscopy imaging with nanometric resolution in focused ion beam-sectioned biological samples. Nanoscale, 9(13), 4383-4387. https://doi.org/10.1039/c6nr09187c
Performance quantification of a flat-panel imager in industrial mega-voltage X-ray imaging systems
Stritt, C., Plamondon, M., Hofmann, J., Flisch, A., & Sennhauser, U. (2017). Performance quantification of a flat-panel imager in industrial mega-voltage X-ray imaging systems. Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 848, 73-80. https://doi.org/10.1016/j.nima.2016.12.044
Reducing volumetric artifacts in computed tomography by cooperative data fusion
Beyer, A., Liu, Y., Hofmann, J., Flisch, A., & Sennhauser, U. (2016). Reducing volumetric artifacts in computed tomography by cooperative data fusion (pp. 149-152). Presented at the International conference on combined digital optical & imaging methods applied to mechanical engineering. .
ROSI and GEANT4 – a comparison in the context of high energy X-ray physics
Kiunke, M., Stritt, C., Schielein, R., Sukowski, F., Hölzing, A., Zabler, S., … Hanke, R. (2016). ROSI and GEANT4 – a comparison in the context of high energy X-ray physics. Nuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms, 377, 50-58. https://doi.org/10.1016/j.nimb.2016.04.029
Cooperative data fusion of transmission and surface scan for improving limited-angle computed tomography reconstruction
Liu, Y., Beyer, A., Schuetz, P., Hofmann, J., Flisch, A., & Sennhauser, U. (2016). Cooperative data fusion of transmission and surface scan for improving limited-angle computed tomography reconstruction. NDT and E International, 83(4), 24-31. https://doi.org/10.1016/j.ndteint.2016.05.003
Quantitative Untersuchung der Streubeiträge in Hochenergie-Röntgencomputertomografie
Stritt, C., Schuetz, P., Plamondon, M., Flisch, A., Hofmann, J., & Sennhauser, U. (2016). Quantitative Untersuchung der Streubeiträge in Hochenergie-Röntgencomputertomografie. Materials Testing, 58(2), 122-126. https://doi.org/10.3139/120.110824
Röntgen-Mikrotomografie, Ultraschall und Thermographie für die Charakterisierung von Defekten in GFK- und CFK-Verbundwerkstoffen und -Elementen
Brunner, A. J., Jerjen, I., Plamondon, M., Furrer, R., & Neuenschwander, J. (2015). Röntgen-Mikrotomografie, Ultraschall und Thermographie für die Charakterisierung von Defekten in GFK- und CFK-Verbundwerkstoffen und -Elementen (p. Mi.1.A.2 (8 pp.). Presented at the DACH-Jahrestagung 2015. .
Automatische Fehlererkennung in Kunststoffkompositbauteilen
Holstein, P., Effenberger, I., Bariska, A., Fulga, S., Springhoff, A., Bodi, A., … Plamondon, M. (2015). Automatische Fehlererkennung in Kunststoffkompositbauteilen. Presented at the DACH-Jahrestagung 2015. Salzburg, Austria.
Enhancing X-ray imaging of liquids in porous materials
Kaufmann, R., Yang, F., Prade, F., Griffa, M., Jerjen, I., Di Bella, C., … Neels, A. (2015). Enhancing X-ray imaging of liquids in porous materials (p. (6 pp.). Presented at the Digital industrial radiology and computed tomography (DIR 2015). .
Analytical modeling, finite-difference simulation and experimental validation of air-coupled ultrasound beam refraction and damping through timber laminates, with application to non-destructive testing
Sanabria, S. J., Furrer, R., Neuenschwander, J., Niemz, P., & Schütz, P. (2015). Analytical modeling, finite-difference simulation and experimental validation of air-coupled ultrasound beam refraction and damping through timber laminates, with application to non-destructive testing. Ultrasonics, 63, 65-85. https://doi.org/10.1016/j.ultras.2015.06.013
Quantitative Untersuchung der Streubeiträge in Hochenergie-Röntgencomputertomographie
Stritt, C., Schuetz, P., Plamondon, M., Flisch, A., Hofmann, J., & Sennhauser, U. (2015). Quantitative Untersuchung der Streubeiträge in Hochenergie-Röntgencomputertomographie (p. Mo.2.A.1 (8 pp. ). Presented at the DACH-Jahrestagung 2015. .
Exploring the limits of limited-angle computed tomography complemented with surface data
Liu, Y., Schuetz, P., Flisch, A., & Sennhauser, U. (2014). Exploring the limits of limited-angle computed tomography complemented with surface data (p. (8 pp.). Presented at the 11th European conference on non-destructive testing (ECNDT 2014).
Polymer optical fibers for textile applications – bicomponent melt spinning from cyclic olefin polymer and structural characteristics revealed by wide angle X-ray diffraction
Reifler, F. A., Hufenus, R., Krehel, M., Zgraggen, E., Rossi, R. M., & Scherer, L. J. (2014). Polymer optical fibers for textile applications – bicomponent melt spinning from cyclic olefin polymer and structural characteristics revealed by wide angle X-ray diffraction. Polymer, 55(22), 5695-5707. https://doi.org/10.1016/j.polymer.2014.08.071