Abstract:The electronic structures of LaNi5 hydrogen storage alloy and LaNi5(111) surface with hydrogen atoms were calculated by plane wave pseudo-potential method based on density functional theory. The results show that on the relaxed surface, La atoms protrude from surface and Ni atoms cave in, which enlarges the contacting area with H atoms. The effective volume of the surface layer is increased by 2.3%, which favors H atoms to diffuse into bulk from the surface. Calculated charge population presents negative charge on the surface, and the negative charge may transfer from the surface layer to H atoms. The stable structure by geometry optimizing after H2 molecule is dissociated into two H atoms on LaNi5(111) surface presents similar structure with hydride LaNi5H7 at the same position. The possible dissociation path and the mechanism of hydrogen-adsorbed are investigated with transition state method, and the activation energy of reaction is estimated as 0.27 eV.

Key words: LaNi5; electronic structure; hydrogen adsorption mechanism; first principle