Active Filters

  • (-) Empa Laboratories = 405 Transport at Nanoscale Interfaces
  • (-) Keywords ≠ optical devices
  • (-) Journal ≠ ACS Nano
Search Results 1 - 20 of 731

Pages

  • RSS Feed
Select Page
20 years of experience with structural health monitoring of objects with CFRP components
Meier, U., Brönnimann, R., Anderegg, P., & Terrasi, G. P. (2013). 20 years of experience with structural health monitoring of objects with CFRP components. In O. Büyüköztürk, M. A. Taşdemir, O. Güneş, & Y. Akkaya (Eds.), Rilem Bookseries: Vol. 6. Nondestructive testing of materials and structures (pp. 959-976). https://doi.org/10.1007/978-94-007-0723-8_136
2D Raman, ATR-FTIR, WAXD, SAXS and DSC data of PET mono- and PET/PA6 bicomponent filaments
Sharma, K., Braun, O., Tritsch, S., Muff, R., Hufenus, R., & Perret, E. (2021). 2D Raman, ATR-FTIR, WAXD, SAXS and DSC data of PET mono- and PET/PA6 bicomponent filaments. Data in Brief, 38, 107416 (24 pp.). https://doi.org/10.1016/j.dib.2021.107416
3D characterization of open porous vacuum plasma sprayed titanium coatings by means of high resolution micro computer tomography
Jaeggi, C., Mooser, R., Frauchiger, V., & Wyss, P. (2009). 3D characterization of open porous vacuum plasma sprayed titanium coatings by means of high resolution micro computer tomography. Materials Letters, 63(30), 2643-2645. https://doi.org/10.1016/j.matlet.2009.09.023
3D holo-tomographic mapping of COVID-19 microclots in blood to assess disease severity
Bergaglio, T., Synhaivska, O., & Nirmalraj, P. N. (2024). 3D holo-tomographic mapping of COVID-19 microclots in blood to assess disease severity. Chemical & biomedical imaging. https://doi.org/10.1021/cbmi.3c00126
3D micro-scale deformations of wood in bending: synchrotron radiation μCT data analyzed with digital volume correlation
Forsberg, F., Mooser, R., Arnold, M., Hack, E., & Wyss, P. (2008). 3D micro-scale deformations of wood in bending: synchrotron radiation μCT data analyzed with digital volume correlation. Journal of Structural Biology, 164(3), 255-262. https://doi.org/10.1016/j.jsb.2008.08.004
3D printed microfluidic devices using TOPAS filament for THz spectroscopic measurements
Zwyssig, D., Hack, E., Zolliker, P., & Mavrona, E. (2023). 3D printed microfluidic devices using TOPAS filament for THz spectroscopic measurements. Optical Materials Express, 13(4), 1031 (10 pp.). https://doi.org/10.1364/OME.477708
<I>Saurichthys </I>and other fossil fishes from the late Smithian (Early Triassic) of Bear Lake County (Idaho, USA), with a discussion of saurichthyid palaeogeography and evolution
Romano, C., Kogan, I., Jenks, J., Jerjen, I., & Brinkmann, W. (2012). Saurichthys and other fossil fishes from the late Smithian (Early Triassic) of Bear Lake County (Idaho, USA), with a discussion of saurichthyid palaeogeography and evolution. Bulletin of Geosciences, 87(3), 543-570. https://doi.org/10.3140/bull.geosci.1337
<em>In situ </em>observation of chemically induced protein denaturation at solvated interfaces
Nirmalraj, P. N., Rossell, M. D., Dachraoui, W., Thompson, D., & Mayer, M. (2023). In situ observation of chemically induced protein denaturation at solvated interfaces. ACS Applied Materials and Interfaces, 15(41), 48015-48026. https://doi.org/10.1021/acsami.3c10510
<i>In-situ</i> impedance matching in Nb/Nb<sub>2</sub>O<sub>5</sub>/Ptlr memristive nanojunctions for ultra-fast neuromorphic operation
Molnár, D., Török, T. N., Sánta, B., Gubicza, A., Magyarkuti, A., Hauert, R., … Csontos, M. (2018). In-situ impedance matching in Nb/Nb2O5/Ptlr memristive nanojunctions for ultra-fast neuromorphic operation. Nanoscale, 10(41), 19290-19296. https://doi.org/10.1039/C8NR06226A
A Digital Image Correlation (DIC) prototype system for crack propagation monitoring in aircraft assemblies
Luan, L. K., Crosbie, L., Michel, S., & Hack, E. (2022). A Digital Image Correlation (DIC) prototype system for crack propagation monitoring in aircraft assemblies. Open Research Europe, 2, 82 (8 pp.). https://doi.org/10.12688/openreseurope.14599.2
A MALDI-MS methodology for studying metabolic heterogeneity of single cells in a population
Krismer, J., Sobek, J., Steinhoff, R. F., Brönnimann, R., Pabst, M., & Zenobi, R. (2020). A MALDI-MS methodology for studying metabolic heterogeneity of single cells in a population. In B. Shrestha (Ed.), Methods in molecular biology: Vol. 2064. Single cell metabolism. Methods and protocols (pp. 113-124). https://doi.org/10.1007/978-1-4939-9831-9_9
A challenge for high-performance full-field strain measurement systems
Patterson, E., Brailly, P., Burguete, R., Hack, E., Siebert, T., & Whelan, M. (2007). A challenge for high-performance full-field strain measurement systems. Strain, 43(3), 167-180. https://doi.org/10.1111/j.1475-1305.2007.00344.x
A combinatorial guide to phase formation and surface passivation of tungsten titanium oxide prepared by thermal oxidation
Siol, S., Ott, N., Beall, C., Stiefel, M., Unutulmazsoy, Y., Döbeli, M., … Cancellieri, C. (2020). A combinatorial guide to phase formation and surface passivation of tungsten titanium oxide prepared by thermal oxidation. Acta Materialia, 186, 95-104. https://doi.org/10.1016/j.actamat.2019.12.026
A compact QCL spectrometer for mobile, high-precision methane sensing aboard drones
Tuzson, B., Graf, M., Ravelid, J., Scheidegger, P., Kupferschmid, A., Looser, H., … Emmenegger, L. (2020). A compact QCL spectrometer for mobile, high-precision methane sensing aboard drones. Atmospheric Measurement Techniques, 13(9), 4715-4726. https://doi.org/10.5194/amt-13-4715-2020
A comparison of three different notching ions for small-scale fracture toughness measurement
Best, J. P., Zechner, J., Shorubalko, I., Oboňa, J. V., Wehrs, J., Morstein, M., & Michler, J. (2016). A comparison of three different notching ions for small-scale fracture toughness measurement. Scripta Materialia, 112, 71-74. https://doi.org/10.1016/j.scriptamat.2015.09.014
A computational study of the effect of structural anisotropy of porous asphalt on hydraulic conductivity
Gruber, I., Zinovik, I., Holzer, L., Flisch, A., & Poulikakos, L. D. (2012). A computational study of the effect of structural anisotropy of porous asphalt on hydraulic conductivity. Construction and Building Materials, 36, 66-77. https://doi.org/10.1016/j.conbuildmat.2012.04.094
A dielectrophoretic method for high yield deposition of suspended, individual carbon nanotubes with four-point electrode contact
Schwamb, T., Choi, T. Y., Schirmer, N., Bieri, N. R., Burg, B., Tharian, J., … Poulikakos, D. (2007). A dielectrophoretic method for high yield deposition of suspended, individual carbon nanotubes with four-point electrode contact. Nano Letters, 7(12), 3633-3638. https://doi.org/10.1021/nl071853t
A generalized neural network approach for separation of molecular breaking traces
van Veen, F., Ornago, L., van der Zant, H. S. J., & El Abbassi, M. (2023). A generalized neural network approach for separation of molecular breaking traces. Journal of Materials Chemistry C, 11(44), 15564-15570. https://doi.org/10.1039/d3tc02346j
A high-precision mid-infrared spectrometer for ambient HNO<sub>3</sub> measurements
Sobanski, N., Tuzson, B., Scheidegger, P., Looser, H., Hüglin, C., & Emmenegger, L. (2022). A high-precision mid-infrared spectrometer for ambient HNO3 measurements. Sensors, 22(23), 9158 (16 pp.). https://doi.org/10.3390/s22239158
A method to fabricate nanoscale gaps in graphene nano-constrictions by electrical breakdown
Schmuck, O., Beretta, D., Furrer, R., Oswald, J., & Calame, M. (2022). A method to fabricate nanoscale gaps in graphene nano-constrictions by electrical breakdown. AIP Advances, 12(5), 055312 (7 pp.). https://doi.org/10.1063/5.0087564
 

Pages