Anelastic spectroscopy experiments on the dehydrogenation process of undoped and catalysed NaAlH4 revealed the formation of a highly mobile species during decomposition. This species, as indicated also by isotope effect measurements, was identified as a hydrogen containing defect complex. In particular, the most likely defect complex may be of type AlHx, in which fast local dynamics of H-vacancies can occur. The formation of such defects begins at temperatures much lower in Ti-doped than in undoped samples. The catalyst atoms decrease the energy barrier to be overcome by H to break the bond, thus enhancing the kinetics of the chemical reactions and decreasing the temperature at which the dehydrogenation processes take place. (C) 2007 Elsevier B.V. All rights reserved.
Dynamics of defects in alanates
2007
Abstract
Anelastic spectroscopy experiments on the dehydrogenation process of undoped and catalysed NaAlH4 revealed the formation of a highly mobile species during decomposition. This species, as indicated also by isotope effect measurements, was identified as a hydrogen containing defect complex. In particular, the most likely defect complex may be of type AlHx, in which fast local dynamics of H-vacancies can occur. The formation of such defects begins at temperatures much lower in Ti-doped than in undoped samples. The catalyst atoms decrease the energy barrier to be overcome by H to break the bond, thus enhancing the kinetics of the chemical reactions and decreasing the temperature at which the dehydrogenation processes take place. (C) 2007 Elsevier B.V. All rights reserved.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
