Amorphous hydrides of the Ti45Zr38Ni17-xCox nano-powders

A. Zywczak, D. Rusinek, J. Czub, M. Sikora, J. Stępień, Gondek, A. Takasaki, A. Hoser

Research output: Contribution to journalArticlepeer-review

5 Citations (Scopus)


The Ti-Zr-Ni alloys can be synthesized in crystalline, amorphous and quasicrystalline phases. They are produced by mechanical alloying or melt-spinning and they are good candidate materials for hydrogen storage applications. In this communication we modified the Ti45Zr38Ni17 compounds by substituting 3d metals (cobalt) for Ni to obtain amorphous phase. The cobalt atoms are located at the same positions as nickel. We describe a series of phase transitions associated with a hydrogen uptake in the amorphous Ti45Zr38Ni17-xCox alloys that were prepared by mechanical alloying. The investigated alloys exhibited a high capacity for gaseous H2 reaching 2.2 wt.% at elevated temperatures. It has been found, that the amorphous powders were decomposed into simple hydrides being exposed to H2 at temperatures above 200 °C. In order to overcome that problem, a processing route to obtain the amorphous hydrides was established. The heated amorphous hydrides underwent an unusual and fascinating transformation into the glassy quasicrystal phase with no hydrogen loss. A further temperature increase triggered another structural transformation into the cubic phase, which was associated with hydrogen release from the structure. The crystal structure evolution was characterized by the variety of diffraction techniques. Thermodynamic properties were studied by differential scanning calorimetry and thermal desorption spectroscopy.

Original languageEnglish
Pages (from-to)15534-15539
Number of pages6
JournalInternational Journal of Hydrogen Energy
Issue number45
Publication statusPublished - 2015 Dec 7


  • Amorphous alloys
  • Hydrogen-storage materials
  • Nano-materials
  • Neutron diffraction

ASJC Scopus subject areas

  • Renewable Energy, Sustainability and the Environment
  • Fuel Technology
  • Condensed Matter Physics
  • Energy Engineering and Power Technology


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