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  • (-) Empa Laboratories = 505 Materials for Renewable Energy
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The catalyzed hydrogen sorption mechanism in alkali alanates
Atakli, Z. Ö. K., Callini, E., Kato, S., Mauron, P., Orimo, S. I., & Züttel, A. (2015). The catalyzed hydrogen sorption mechanism in alkali alanates. Physical Chemistry Chemical Physics, 17(32), 20932-20940. https://doi.org/10.1039/c5cp01684c
Gas–solid reaction of carbon dioxide with alanates
Hugelshofer, C. L., Borgschulte, A., Callini, E., Matam, S. K., Gehrig, J., Hog, D. T., & Züttel, A. (2014). Gas–solid reaction of carbon dioxide with alanates. Journal of Physical Chemistry C, 118(29), 15940-15945. https://doi.org/10.1021/jp505323j
Sorption enhanced CO<SUB>2</SUB> methanation
Borgschulte, A., Gallandat, N., Probst, B., Suter, R., Callini, E., Ferri, D., … Züttel, A. (2013). Sorption enhanced CO2 methanation. Physical Chemistry Chemical Physics, 15(24), 9620-9625. https://doi.org/10.1039/c3cp51408k
Solar thermochemical CO<SUB>2</SUB> splitting utilizing a reticulated porous ceria redox system
Furler, P., Scheffe, J., Gorbar, M., Moes, L., Vogt, U., & Steinfeld, A. (2012). Solar thermochemical CO2 splitting utilizing a reticulated porous ceria redox system. Energy and Fuels, 26(11), 7051-7059. https://doi.org/10.1021/ef3013757
Characterization of hydrogen storage materials by means of pressure concentration isotherms based on the mass flow method
Bielmann, M., Kato, S., Mauron, P., Borgschulte, A., & Züttel, A. (2009). Characterization of hydrogen storage materials by means of pressure concentration isotherms based on the mass flow method. Review of Scientific Instruments, 80(8), 083901 (7 pp.). https://doi.org/10.1063/1.3186731
Experimental techniques to measure of the equilibrium plateau pressures of metal hydrides
Borgschulte, A., Kato, S., Bielmann, M., & Züttel, A. (2009). Experimental techniques to measure of the equilibrium plateau pressures of metal hydrides. In P. Jena, A. Kandalam, & Q. Sun (Eds.), Materials issues in a hydrogen economy. Proceedings of the international symposium (pp. 184-191). https://doi.org/10.1142/9789812838025_0017
Evidence for hydrogen transport in deuterated LiBH<SUB>4</SUB> from low-temperature Raman-scattering measurements and first-principles calculations
Gremaud, R., Łodziana, Z., Hug, P., Willenberg, B., Racu, A. M., Schoenes, J., … Borgschulte, A. (2009). Evidence for hydrogen transport in deuterated LiBH4 from low-temperature Raman-scattering measurements and first-principles calculations. Physical Review B, 80(10), 100301 (4 pp.). https://doi.org/10.1103/PhysRevB.80.100301
Hydrogen–deuterium exchange experiments to probe the decomposition reaction of sodium alanate
Borgschulte, A., Züttel, A., Hug, P., Barkhordarian, G., Eigen, N., Dornheim, M., … Ramirez-Cuesta, A. J. (2008). Hydrogen–deuterium exchange experiments to probe the decomposition reaction of sodium alanate. Physical Chemistry Chemical Physics, 10, 4045-4055. https://doi.org/10.1039/b803147a
Hydrogen−deuterium exchange in bulk LiBH<SUB>4</SUB>
Borgschulte, A., Züttel, A., Hug, P., Racu, A. M., & Schoenes, J. (2008). Hydrogen−deuterium exchange in bulk LiBH4. Journal of Physical Chemistry A, 112(21), 4749-4753. https://doi.org/10.1021/jp711902p