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  • (-) Organizational Unit = 501 Materials for Energy Conversion
  • (-) Publication Year = 2006 - 2019
  • (-) Publication Type ≠ Journal Article
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Sn/Cu catalysts for CO<sub>2</sub>RR: impact of composition and morphology on product selectivity
Ju, W., & Battaglia, C. (2019). Sn/Cu catalysts for CO2RR: impact of composition and morphology on product selectivity (p. (9 pp.). Presented at the European fuel cell forum (EFCF 2019). Lucerne, Switzerland.
Der Einsatz von SiC-Schaumkeramik für die schadstofffreie katalytische Oxidation von Wasserstoff
Fumey, B., Bütler, T., & Vogt, U. F. (2018). Der Einsatz von SiC-Schaumkeramik für die schadstofffreie katalytische Oxidation von Wasserstoff. DGM - dIALOG: Materialwissenschaft und Werkstofftechnik, 2018(2), 66-71.
Developments for alkaline electrolysis: from materials to laboratory electrolysis
Ju, W., Pusterla, L., Heinz, M. V. F., Burnat, D., Battaglia, C., & Vogt, U. F. (2017). Developments for alkaline electrolysis: from materials to laboratory electrolysis. In I. Cerri, A. Heinzel, G. Bandlamudi, S. Cotte, J. Karstedt, F. Mahlendorf, … F. Valle (Eds.), Proceedings of 6th European PEFC & Electrolyser Forum 2017 (pp. 67-76). Luzern-Adligenswil: EFCF.
On the reversible hydrogen storage in Mg(BH<SUB>4</SUB>)<SUB>2</SUB> under moderate conditions
Yan, Y., Rentsch, D., & Remhof, A. (2016). On the reversible hydrogen storage in Mg(BH4)2 under moderate conditions. In P. Jena & A. K. Kandalam (Eds.), Proceedings of SPIE: Vol. 10174. International symposium on clusters and nanomaterials (p. 101740A (7 pp.). https://doi.org/10.1117/12.2235076
Activation of nano-Ca<small><sub>2</sub></small>MnO<small><sub>4</sub></small> for electrochemical lithium intercalation
Surace, Y., Simões, M., Karvonen, L., Battaglia, C., Pokrant, S., & Weidenkaff, A. (2015). Activation of nano-Ca2MnO4 for electrochemical lithium intercalation. In J. Augustynski, F. Grosse, D. Kumar, F. Sanchez, C. Santato, X. W. Sun, … T. Yamamoto (Eds.), Materials research society symposium proceedings: Vol. 1805. Symposium SS/TT – fabrication and properties of oxide thin films, nanostructures and interfaces for advanced applications (pp. mrss15-2133233 (6 pp.). https://doi.org/10.1557/opl.2015.742
Thermoelectric properties of EuTiO3 and related materials
Sagarna Zudaire, L. S. (2014). Thermoelectric properties of EuTiO3 and related materials (Doctoral dissertation). Universität Bern, Bern, 158 p.
High-temperature thermoelectric properties of W-substituted CaMnO<small><sub>3</sub></small>
Alfaruq, D. S., Eilertsen, J., Thiel, P., Aguirre, M. H., Otal, E., Populoh, S., … Weidenkaff, A. (2013). High-temperature thermoelectric properties of W-substituted CaMnO3. In G. S. Nolas, Y. Grin, D. Johnson, & A. Thompson (Eds.), Materials research society symposium proceedings: Vol. 1490. Symposium B – thermoelectric materials research and device development for power conversion and refrigeration (pp. 3-8). https://doi.org/10.1557/opl.2013.85
Attrition-enhanced nanocomposite synthesis of indium-filled, iron-substituted skutterudite antimonides for improved performance thermoelectrics
Eilertsen, J., Trottmann, M., Populoh, S., Berthelot, R., Cooke, C. M., Cinibulk, M. K., … Subramanian, M. A. (2013). Attrition-enhanced nanocomposite synthesis of indium-filled, iron-substituted skutterudite antimonides for improved performance thermoelectrics. In G. S. Nolas, Y. Grin, D. Johnson, & A. Thompson (Eds.), Materials research society symposium proceedings: Vol. 1490. Symposium B – thermoelectric materials research and device development for power conversion and refrigeration (pp. 27-32). https://doi.org/10.1557/opl.2013.287
Adhäsion als Grenzflächenproblem
Hauert, R., & Hug, P. (2013). Adhäsion als Grenzflächenproblem. Maschinenbau, 42(4), 44-47.
HITTEC project to boost power from heat in 'turbo' SOFC
Heel, A., & Weidenkaff, A. (2013). HITTEC project to boost power from heat in 'turbo' SOFC. Fuel Cells Bulletin, 2013(1), 10-11. https://doi.org/10.1016/S1464-2859(13)70025-7
Perovskite-type LaTiO<SUB>2</SUB>N for visible-light driven photocatalytic and photoelectrochemical water splitting
Maegli, A. E. (2013). Perovskite-type LaTiO2N for visible-light driven photocatalytic and photoelectrochemical water splitting (Doctoral dissertation). Universität Bern, Bern, 126 p.
Photocatalytic water splitting with modified LaTiO<small><SUB>2</SUB></small>N
Pokrant, S., Maegli, A., Trottmann, M., Sagarna, L., Otal, E., Hisatomi, T., … Weidenkaff, A. (2013). Photocatalytic water splitting with modified LaTiO2N (p. A0902 (9 pp.). Presented at the 4th European PEFC and H2 forum 2013. Lucerne, Switzerland.
Thermoelectric properties of Ru and In substituted misfit-layered Ca<small><sub>3</sub></small>Co<small><sub>4</sub></small>O<small><sub>9</sub></small>
Saucke, G., Populoh, S., Vogel-Schäuble, N., Sagarna, L., Mogare, K., Karvonen, L., & Weidenkaff, A. (2013). Thermoelectric properties of Ru and In substituted misfit-layered Ca3Co4O9. In S. P. Beckman, H. Böttner, Y. Chopin, C. Dames, P. A. Greaney, P. Hopkins, … R. Venkatasubramanian (Eds.), Materials research society symposium proceedings: Vol. 1543. Symposium V – nanoscale thermoelectric materials, transport phenomena, and applications to solid-state cooling and power generation (pp. 83-92). https://doi.org/10.1557/opl.2013.972
ZnO-based thermoelectric composite materials and thin films
Vogel-Schäuble, N. (2013). ZnO-based thermoelectric composite materials and thin films (Doctoral dissertation). Universität Bern, 106 p.
High-pressure synthesis of [Sr<SUB>2</SUB>O<SUB>2</SUB>]<SUB>0.5</SUB>CoO<SUB>2</SUB> layered oxide
Duraki, B. (2012). High-pressure synthesis of [Sr2O2]0.5CoO2 layered oxide (Master thesis). 57 p.
Perovskite-type LaTiO<SUB>2</SUB>N oxynitrides for solar water splitting: influence of the synthesis conditions
Maegli, A. E., Otal, E. H., Hisatomi, T., Yoon, S., Leroy, C. M., Schäuble, N., … Weidenkaff, A. (2012). Perovskite-type LaTiO2N oxynitrides for solar water splitting: influence of the synthesis conditions. In M. Grätzel (Ed.), Energy procedia: Vol. 22. EMRS symposium T: materials for solar hydrogen via photo-electrochemical production (pp. 61-66). https://doi.org/10.1016/j.egypro.2012.05.218
A morphology study on thermoelectric Al-substituted ZnO
Schäuble, N., Süess, B. E., Populoh, S., Weidenkaff, A., & Aguirre, M. H. (2012). A morphology study on thermoelectric Al-substituted ZnO. In K. M. Paraskevopoulos & E. Hatzikraniotis (Eds.), AIP conference proceedings: Vol. 1449. 9th European conference on thermoelectrics. ECT2011 (pp. 421-424). https://doi.org/10.1063/1.4731586
Aus Abgasen Energie gewinnen
Veziridis, A., Cabalzar, U., Trottmann, M., & Weidenkaff, A. (2012). Aus Abgasen Energie gewinnen. E&E-Kompendium: Elektronik and Entwicklung, 100-102.
Mit TOMs Wärmeenergie umwandeln
Veziridis, A., Tomeš, P., Brunko, O., & Weidenkaff, A. (2012). Mit TOMs Wärmeenergie umwandeln. E&E-Kompendium: Elektronik and Entwicklung, 89-92.
Synthesis andcharacterization of La (Ti,Nb)(O,N)<SUB>3</SUB> for photocatalytic water oxidation
Yoon, S., Maegli, A. E., Eyssler, A., Trottmann, M., Hisatomi, T., Leroy, C. M., … Weidenkaff, A. (2012). Synthesis andcharacterization of La (Ti,Nb)(O,N)3 for photocatalytic water oxidation. In M. Grätzel (Ed.), Energy procedia: Vol. 22. EMRS symposium T: materials for solar hydrogen via photo-electrochemical production (pp. 41-47). https://doi.org/10.1016/j.egypro.2012.05.225