The first model-independent measurements of H diffusion in LaHx, where x was between 2 and 3, were carried out by means of pulsed-field gradient nuclear magnetic resonance techniques. At x-values of up to 2.92, the diffusivity exhibited an Arrhenius behavior over wide temperature ranges. The activation enthalpy decreased with increasing x-value; from 0.55eV at x = 2.00 to 0.17eV at x = 2.92 (table 13), thus leading to a sharp increase in diffusivity (table 14). The formation of a H superstructure, that was associated with the semiconductor-to-metal transition, resulted in a marked reduction in the diffusivity. It was noted for the first time that, in the stoichiometric limit, the diffusivity depended upon the thermal history of the sample.
Model-Independent Measurements of Hydrogen Diffusivity in the Lanthanum Dihydride-Trihydride System. G.Majer, U.Kaess, R.G.Barnes: Physical Review Letters, 1999, 83[2], 340-3
Table 13
Diffusion Parameters for H in LaHx
x | Do (m2/s) | E (eV) | Temperature (K) |
2.00 | 1.1 x 10-7 | 0.55 | 500-800 |
2.26 | 1.6 x 10-7 | 0.44 | 410-800 |
2.35 | 1.4 x 10-7 | 0.40 | 390-800 |
2.50 | 4.7 x 10-8 | 0.29 | 330-680 |
2.70 | 2.3 x 10-8 | 0.21 | 330-500 |
2.92 | 1.3 x 10-8 | 0.17 | 280-550 |
Table 14
Diffusivity of H in LaHx at 500K
x | D (m2/s) |
2.00 | 3.0 x 10-13 |
2.26 | 5.9 x 10-12 |
2.35 | 1.3 x 10-11 |
2.50 | 5.6 x 10-11 |
2.70 | 1.76 x 10-10 |
2.92 | 2.50 x 10-10 |