Hydrogen absorption in a metal leads to significant lattice expansion. This effect can be applied for discontinuous films to make them exceed the percolation limit, turning the film from nonconducting to conducting. Furthermore, in a percolating system, the conductivity should depend strongly on the external hydrogen pressure. This letter discusses the idea of a hydrogen-induced percolation mechanism. The process is illustrated by measurements on agglomerated palladium films, showing a maximum decrease of the resistivity by 50% at an exposure of the films to 5×104 to 9×104Pa. The agglomerated films are prepared by Joule heating, using heat dissipation in the film itself.

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