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Analysis of c-lattice parameters to evaluate Na<sub>2</sub>O loss from and Na<sub>2</sub>O content in β''-alumina ceramics
Bay, M. C., Heinz, M. V. F., Danilewsky, A. N., Battaglia, C., & Vogt, U. F. (2021). Analysis of c-lattice parameters to evaluate Na2O loss from and Na2O content in β''-alumina ceramics. Ceramics International, 47(10), 13402-13408. https://doi.org/10.1016/j.ceramint.2021.01.197
Impact of sintering conditions and zirconia addition on flexural strength and ion conductivity of Na-β&quot;-alumina ceramics
Bay, M. C., Heinz, M. V. F., Linte, C., German, A., Blugan, G., Battaglia, C., & Vogt, U. F. (2020). Impact of sintering conditions and zirconia addition on flexural strength and ion conductivity of Na-β"-alumina ceramics. Materials Today Communications, 23, 101118 (7 pp.). https://doi.org/10.1016/j.mtcomm.2020.101118
Impact of liquid phase formation on microstructure and conductivity of Li-stabilized Na-&lt;em&gt;β&lt;/em&gt;&quot;-alumina ceramics
Bay, M. C., Heinz, M. V. F., Figi, R., Schreiner, C., Basso, D., Zanon, N., … Battaglia, C. (2019). Impact of liquid phase formation on microstructure and conductivity of Li-stabilized Na-β"-alumina ceramics. ACS Applied Energy Materials, 2(1), 687-693. https://doi.org/10.1021/acsaem.8b01715
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.
Ultra-low NO<sub>x</sub> emissions from catalytic hydrogen combustion
Fumey, B., Buetler, T., & Vogt, U. F. (2018). Ultra-low NOx emissions from catalytic hydrogen combustion. Applied Energy, 213, 334-342. https://doi.org/10.1016/j.apenergy.2018.01.042
Lab-scale alkaline water electrolyzer for bridging material fundamentals with realistic operation
Ju, W., Heinz, M. V. F., Pusterla, L., Hofer, M., Fumey, B., Castiglioni, R., … Vogt, U. F. (2018). Lab-scale alkaline water electrolyzer for bridging material fundamentals with realistic operation. ACS Sustainable Chemistry and Engineering, 6(4), 4829-4837. https://doi.org/10.1021/acssuschemeng.7b04173
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). EFCF.
<i>In situ</i> flow cell for combined X-ray absorption spectroscopy, X-ray diffraction, and mass spectrometry at high photon energies under solar thermochemical looping conditions
Rothensteiner, M., Jenni, J., Emerich, H., Bonk, A., Vogt, U. F., & van Bokhoven, J. A. (2017). In situ flow cell for combined X-ray absorption spectroscopy, X-ray diffraction, and mass spectrometry at high photon energies under solar thermochemical looping conditions. Review of Scientific Instruments, 88(8), 083116 (11 pp.). https://doi.org/10.1063/1.4994890
Structural changes in equimolar ceria-hafnia materials under solar thermochemical looping conditions: cation ordering, formation and stability of the pyrochlore structure
Rothensteiner, M., Bonk, A., Vogt, U. F., Emerich, H., & van Bokhoven, J. A. (2017). Structural changes in equimolar ceria-hafnia materials under solar thermochemical looping conditions: cation ordering, formation and stability of the pyrochlore structure. RSC Advances, 7(85), 53797-53809. https://doi.org/10.1039/c7ra09261j
Splitting CO<SUB>2</SUB> with a ceria-based redox cycle in a solar-driven thermogravimetric analyzer
Takacs, M., Ackermann, S., Bonk, A., Neises-von Puttkamer, M., Haueter, P., Scheffe, J. R., … Steinfeld, A. (2017). Splitting CO2 with a ceria-based redox cycle in a solar-driven thermogravimetric analyzer. AICHE Journal, 63(4), 1263-1271. https://doi.org/10.1002/aic.15501
Investigations on the redox performance of pure and doped CeO 2 by comparing solid state reaction and pechini synthesis
Bonk, A., Maier, A. C., Burnat, D., Vogt, U. F., & Züttel, A. (2016). Investigations on the redox performance of pure and doped CeO 2 by comparing solid state reaction and pechini synthesis. In U. Udomkichdecha, A. Mononukul, T. Böllinghaus, & J. Lexow (Eds.), Materials for Energy Infrastructure. Materials for Energy Infrastructure (pp. 11-20). https://doi.org/10.1007/978-981-287-724-6
Low-temperature reducibility of M&lt;sub&gt;x&lt;/sub&gt;Ce&lt;sub&gt;1-x&lt;/sub&gt;O&lt;sub&gt;2&lt;/sub&gt; (M = Zr, Hf) under hydrogen atmosphere
Bonk, A., Remhof, A., Maier, A. C., Trottmann, M., Schlupp, M. V. F., Battaglia, C., & Vogt, U. F. (2016). Low-temperature reducibility of MxCe1-xO2 (M = Zr, Hf) under hydrogen atmosphere. Journal of Physical Chemistry C, 120(1), 118-125. https://doi.org/10.1021/acs.jpcc.5b10796
Porous nanoclay polysulfone composites: a backbone with high pore accessibility for functional modifications
Felbeck, T., Bonk, A., Kaup, G., Mundinger, S., Grethe, T., Rabe, M., … Kynast, U. (2016). Porous nanoclay polysulfone composites: a backbone with high pore accessibility for functional modifications. Microporous and Mesoporous Materials, 234, 107-112. https://doi.org/10.1016/j.micromeso.2016.07.003
Investigation of a Pt containing washcoat on SiC foam for hydrogen combustion applications
Fernández, A., Arzac, G. M., Vogt, U. F., Hosoglu, F., Borgschulte, A., Jiménez de Haro, M. C., … Züttel, A. (2016). Investigation of a Pt containing washcoat on SiC foam for hydrogen combustion applications. Applied Catalysis B: Environmental, 180, 336-343. https://doi.org/10.1016/j.apcatb.2015.06.040
Development of a novel cooking stove based on catalytic hydrogen combustion
Fumey, B., Stoller, S., Fricker, R., Weber, R., Dorer, V., & Vogt, U. F. (2016). Development of a novel cooking stove based on catalytic hydrogen combustion. International Journal of Hydrogen Energy, 41(18), 7494-7499. https://doi.org/10.1016/j.ijhydene.2016.03.134
Structural changes in Ce<sub>0.5</sub>Zr<sub>0.5</sub>O<sub>2−δ</sub> under temperature-swing and isothermal solar thermochemical looping conditions determined by in situ Ce K and Zr K edge X-ray absorption epectroscopy
Rothensteiner, M., Bonk, A., Vogt, U. F., Emerich, H., & van Bokhoven, J. A. (2016). Structural changes in Ce0.5Zr0.5O2−δ under temperature-swing and isothermal solar thermochemical looping conditions determined by in situ Ce K and Zr K edge X-ray absorption epectroscopy. Journal of Physical Chemistry C, 120(26), 13931-13941. https://doi.org/10.1021/acs.jpcc.6b03367
Platinum thin-film electrodes prepared by a cost-effective chemical vapor deposition technique
Schlupp, M. V. F., Wehrle, M. M., Kunze, K., Remhof, A., & Vogt, U. F. (2016). Platinum thin-film electrodes prepared by a cost-effective chemical vapor deposition technique. Advanced Engineering Materials, 18(7), 1200-1207. https://doi.org/10.1002/adem.201500636
The effect of dopants on the redox performance, microstructure and phase formation of ceria
Bonk, A., Maier, A. C., Schlupp, M. V. F., Burnat, D., Remhof, A., Delmelle, R., … Vogt, U. F. (2015). The effect of dopants on the redox performance, microstructure and phase formation of ceria. Journal of Power Sources, 300, 261-271. https://doi.org/10.1016/j.jpowsour.2015.09.073
Composite membranes for alkaline electrolysis based on polysulfone and mineral fillers
Burnat, D., Schlupp, M., Wichser, A., Lothenbach, B., Gorbar, M., Züttel, A., & Vogt, U. F. (2015). Composite membranes for alkaline electrolysis based on polysulfone and mineral fillers. Journal of Power Sources, 291, 163-172. https://doi.org/10.1016/j.jpowsour.2015.04.066
Ce K edge XAS of ceria-based redox materials under realistic conditions for the two-step solar thermochemical dissociation of water and/or CO<SUB>2</SUB>
Rothensteiner, M., Sala, S., Bonk, A., Vogt, U., Emerich, H., & van Bokhoven, J. A. (2015). Ce K edge XAS of ceria-based redox materials under realistic conditions for the two-step solar thermochemical dissociation of water and/or CO2. Physical Chemistry Chemical Physics, 17(40), 26988-26996. https://doi.org/10.1039/C5CP03179F
 

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