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  • (-) Organizational Unit = 501 Materials for Energy Conversion
  • (-) Publication Year = 2006 - 2019
  • (-) Keywords ≠ energy storage
  • (-) Organizational Unit = 405 Transport at Nanoscale Interfaces
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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
Electrocatalytic reduction of gaseous CO<sub>2 </sub>to CO on Sn/Cu‐nanofiber‐based gas diffusion electrodes
Ju, W., Jiang, F., Ma, H., Pan, Z., Zhao, Y. ‐B., Pagani, F., … Battaglia, C. (2019). Electrocatalytic reduction of gaseous CO2 to CO on Sn/Cu‐nanofiber‐based gas diffusion electrodes. Advanced Energy Materials, 9(32), 1901514 (6 pp.). https://doi.org/10.1002/aenm.201901514
Sn-decorated Cu for selective electrochemical CO<sub>2</sub> to CO conversion: precision architecture beyond composition design
Ju, W., Zeng, J., Bejtka, K., Ma, H., Rentsch, D., Castellino, M., … Battaglia, C. (2019). Sn-decorated Cu for selective electrochemical CO2 to CO conversion: precision architecture beyond composition design. ACS Applied Energy Materials, 2(1), 867-872. https://doi.org/10.1021/acsaem.8b01944
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
A unifying view of the constant-phase-element and its role as an aging indicator for Li-Ion batteries
Cuervo-Reyes, E., Scheller, C. P., Held, M., & Sennhauser, U. (2015). A unifying view of the constant-phase-element and its role as an aging indicator for Li-Ion batteries. Journal of the Electrochemical Society, 162(8), A1585-A1591. https://doi.org/10.1149/2.0791508jes
Liquid-selenium-enhanced grain growth of nanoparticle precursor layers for CuInSe<SUB>2</SUB> solar cell absorbers
Uhl, A. R., Fuchs, P., Rieger, A., Pianezzi, F., Sutter-Fella, C. M., Kranz, L., … Tiwari, A. N. (2015). Liquid-selenium-enhanced grain growth of nanoparticle precursor layers for CuInSe2 solar cell absorbers. Progress in Photovoltaics, 23(9), 1110-1119. https://doi.org/10.1002/pip.2529
Improvement of catalytic activity of LaFe<SUB>0.95</SUB>Pd<SUB>0.05</SUB>O<SUB>3</SUB> for methane oxidation under transient conditions
Eyssler, A., Kleymenov, E., Kupferschmid, A., Nachtegaal, M., Kumar, M. S., Hug, P., … Ferri, D. (2011). Improvement of catalytic activity of LaFe0.95Pd0.05O3 for methane oxidation under transient conditions. Journal of Physical Chemistry C, 115(4), 1231-1239. https://doi.org/10.1021/jp106537v
Three-way-catalyst induced benzene formation: a precursor study
Bruehlmann, S., Novak, P., Lienemann, P., Trottmann, M., Gfeller, U., Zwicky, C. N., … Heeb, N. V. (2007). Three-way-catalyst induced benzene formation: a precursor study. Applied Catalysis B: Environmental, 70(1-4), 276-283. https://doi.org/10.1016/j.apcatb.2006.02.026