La0.67Ce0.19Nd0.08Pr0.06Ni5 was synthesized by low energy mechanical alloying. The AB(5) was milled up to completion stage to reach the final composition and appropriate particle size distribution and microstructure characteristics. Crystallite size, strain and sorption properties of as-milled samples were evaluated. After milling, La0.67Ce0.19Nd0.08Pr0.06Ni5 and previously obtained LaNi5 were annealed at 600 degrees C for 24h. An improvement in both microstructural and hydrogen sorption properties was found. Equilibrium hydrogen sorption properties were obtained and quantified in the 25-90 degrees C range. From these results, a two-stage hydrogen compressor was proposed. In the first stage, hydrogen is absorbed by LaNi5 at 575 kPa and 25 degrees C and desorbed at 1365 kPa and 90 degrees C. In the second stage, this fluid is absorbed by La0.67Ce0.19Nd0.08Pr0.06Ni5 at 745 kPa and 25 degrees C and desorbed at 2100 kPa and 90 degrees C. As a result, a global compression ratio of 3.65 is reached using this scheme. (C) 2008 International Association for Hydrogen Energy. Published by Elsevier Ltd. All rights reserved.