Page 171 -
P. 171
107. Huot, J., Tremblay, M.-L., Schulz, R.: Synthesis of nanocrystalline hydrogen
storage materials. J. Alloys Comp. 356–357, 603–607 (2003). doi:
10.1016/S0925-8388(03)00120-8
108. Schlapbach, L., Züttel, A.: Hydrogen-storage materials for mobile applications.
Nature 414, 353–358 (2001). doi: 10.1038/35104634
109. Rodríguez, M., Urretavizcaya, G., Bobet, J.-L., Castro, F.J.: Effective hydrogen
production by hydrolysis of Mg wastes reprocessed by mechanical milling with
iron and graphite. J. Alloys and Comp. 946, 169352 (2023). doi:
10.1016/j.jallcom.2023.169352
110. Ströbel, R., Garche, J., Moseley, P.T., Jörissen, L., Wolf, G.: Hydrogen storage
by carbon materials. Journal of Power Sources 159(2), 781–801 (2006). doi:
10.1016/j.jpowsour.2006.03.047
111. Zhang, L., Sun, Z., Cai, Z., Yan, N., Lu, X., Zhu, X., Chen, L.: Enhanced hy-
drogen storage properties of MgH by the synergetic catalysis of Zr Ti Co
0.4
0.6
2
nanosheets and carbon nanotubes. App. Surface Sci. 504, 144465 (2020). doi:
10.1016/j.apsusc.2019.144465
112. Liu, M., Xiao, X., Zhao, Sh., Saremi-Yarahmadi, S., Chen, M., Zheng, J., Li,
Sh., Chen, L.: ZIF-67 derived Co@CNTs nanoparticles: Remarkably improved
hydrogen storage properties of MgH and synergetic catalysis mechanism. Int. J.
2
Hydrogen Energy 44(2), 1059–1069 (2019). doi:
10.1016/j.ijhydene.2018.11.078
113. Hwaebong, J., Sungmee, Ch., Wooyoung, L.: A catalytic effect on hydrogen ab-
sorption kinetics in Pd/Ti/Mg/Ti multilayer thin films. J. Alloys Compd. 635,
203–206 (2015). doi: 10.1016/j.jallcom.2015.02.080
114. Ramin, Z., Beniamin, Z., Alan, K., Peter, K., Babak, S.A., David, M.: Micro-
structural evolution during low temperature sorption cycling of Mg-AlTi multi-
layer nanocomposites. Int. J. Hydrogen Energy 37(5), 4215–4226 (2012). doi:
10.1016/j.ijhydene.2011.11.113
171
