Surface Properties of LaNi5 and TiFe—Future Opportunities of Theoretical Research in Hydrides

Abstract: Hydrogen in the solid state compounds is still considered as a safe method of energy storage. The ultimate metal hydrides or other materials that can be used for this purpose remain unknown. Such metal hydrides shall have favorable thermodynamics and kinetics of hydrogen ad/desorption, and it shall be resistant to contamination of H2 and should not constitute any environmental hazards. Theoretical investigations, based on quantum mechanics approach, have a well-established position in modern materials research… Show more

“…The (110) surface forms with the lowest energy and has an area fraction of 57.2%, suggesting that it is the most preferred orientation for the TiFe IMC. This is in agreement with a previous theoretical study, 72 the (110) peak intensification observed in X-ray diffraction (XRD), 16,73,74 and the transmission electron microscopy (TEM) analysis of TiFe lattice planes. 16,73,75 Therefore, in the following we focused on the (110) orientation as the most representative surface of TiFe.…”

Influence of near-surface oxide layers on TiFe hydrogenation: mechanistic insights and implications for hydrogen storage applications

“…The (110) surface forms with the lowest energy and has an area fraction of 57.2%, suggesting that it is the most preferred orientation for the TiFe IMC. This is in agreement with a previous theoretical study, 72 the (110) peak intensification observed in X-ray diffraction (XRD), 16,73,74 and the transmission electron microscopy (TEM) analysis of TiFe lattice planes. 16,73,75 Therefore, in the following we focused on the (110) orientation as the most representative surface of TiFe.…”

Influence of near-surface oxide layers on TiFe hydrogenation: mechanistic insights and implications for hydrogen storage applications

Intermetallic based materials for Sabatier reaction: Surface understanding, performance assessment and comparison with commercial catalyst

Effect of synthesis parameters on phase composition, purity and structure of LaNi5 powder produced by calciothermic process