Local structure of the nanostructured LaNi5 hydrogen storage alloys, prepared by ball-milling, has been studied using Ni K-edge extended X-ray absorption fine structure spectroscopy. Results indicate that the ball-milling up to 100 h results in the production of nanoparticles characterized by large atomic disorder and slightly reduced unit-cell volume, compared to the bulk LaNi5. High temperature annealing appears to help in partial recovery of atomic order in the ball-milled samples; however, longtime ball-milled samples retain large disorder even after the high temperature annealing. The results suggest that the large disorder and the reduced unit-cell volume might be causing a higher energybarrier for the hydride-phase formation in the long time ball-milled LaNi5 powders.
Joseph, B., Iadecola, A., Schiavo, B., Cognigni, A., Olivi, L., D'Ali Staiti, G., et al. (2010). Local structure of ball-milled LaNi5 hydrogen storage material by Ni K-edge EXAFS. JOURNAL OF SOLID STATE CHEMISTRY, 2010-04-30 [doi:10.1016/j.jssc.2010.04.034].
Local structure of ball-milled LaNi5 hydrogen storage material by Ni K-edge EXAFS
SCHIAVO, Benedetto;D'ALI'STAITI, Giacomo;
2010-01-01
Abstract
Local structure of the nanostructured LaNi5 hydrogen storage alloys, prepared by ball-milling, has been studied using Ni K-edge extended X-ray absorption fine structure spectroscopy. Results indicate that the ball-milling up to 100 h results in the production of nanoparticles characterized by large atomic disorder and slightly reduced unit-cell volume, compared to the bulk LaNi5. High temperature annealing appears to help in partial recovery of atomic order in the ball-milled samples; however, longtime ball-milled samples retain large disorder even after the high temperature annealing. The results suggest that the large disorder and the reduced unit-cell volume might be causing a higher energybarrier for the hydride-phase formation in the long time ball-milled LaNi5 powders.
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