TY - JOUR
T1 - Melt-spinning of AB5.5-type hydride-forminng compounds and the influence of annealing on electrochemical and crystallographic properties
AU - Notten, P.H.L.
AU - Daams, J.L.C.
AU - Einerhand, R.E.F.
PY - 1992
Y1 - 1992
N2 - Non-stoichiometric almost single-phase AB55 materials were prepared using the melt-spinning technique. Characteristic of these materials is the anisotropically deformed crystal lattices (decreased a-axis and increased c-axis), resulting from the excess of B-elements incorporated in the hP6-CaCu5 structure. These materials show (i) an excellent long-term stability during electrochemical cycling in alkaline solution, indicating that the oxidation resistivity strongly depends on the extent of the crystal lattice deformation
and (ii) a relatively poor electrocatalytic activity ‘vhich can be attributed to the absence of highly catalytic second-phase alloys. Annealing of the as-prepared samples induces the deformed crystal lattice to relax by secreting the excess of B-elements. As a consequence, double-phase materials are formed, consisting of hydride-forming compounds with compositions close to the AB5 stoichiometry and second-phase alloys.
These double-phase materials combine a relatively poor long-term cycling stability with a high electro catalytic activity.
AB - Non-stoichiometric almost single-phase AB55 materials were prepared using the melt-spinning technique. Characteristic of these materials is the anisotropically deformed crystal lattices (decreased a-axis and increased c-axis), resulting from the excess of B-elements incorporated in the hP6-CaCu5 structure. These materials show (i) an excellent long-term stability during electrochemical cycling in alkaline solution, indicating that the oxidation resistivity strongly depends on the extent of the crystal lattice deformation
and (ii) a relatively poor electrocatalytic activity ‘vhich can be attributed to the absence of highly catalytic second-phase alloys. Annealing of the as-prepared samples induces the deformed crystal lattice to relax by secreting the excess of B-elements. As a consequence, double-phase materials are formed, consisting of hydride-forming compounds with compositions close to the AB5 stoichiometry and second-phase alloys.
These double-phase materials combine a relatively poor long-term cycling stability with a high electro catalytic activity.
U2 - 10.1002/bbpc.19920960504
DO - 10.1002/bbpc.19920960504
M3 - Article
SN - 0940-483X
VL - 96
SP - 656
EP - 667
JO - Berichte der Bunsen-Gesellschaft : Physical Chemistry, Chemical Physics
JF - Berichte der Bunsen-Gesellschaft : Physical Chemistry, Chemical Physics
ER -