Bulk Thermodynamics Determines Surface Hydrogen Concentration in Membranes

Abstract: nonconverted reactants. In this step, hydrogen may be separated from the mixture, and reused in the reaction. In a future scenario with hydrogen as a main energy carrier, the separation and/or purification of the energetically costly hydrogen will become even more important. [1][2][3] A promising way is the use of hydrogen selective membranes made of hydrogen absorbing metals, such as Pd and its alloys. [4,5] The permeability of such membranes is determined by the surface properties of both sides (dissociation… Show more

“…The growth of a MgH 2 layer is still possible under dynamic conditions as applied in Figure 6, because the local chemical potential in the sample is higher than required to form the hydride. [ 66 ] The local chemical potential is defined by chemical potential at the membrane feed side (which is well above the plateau pressure), and the flux of hydrogen through the entire thin film system, which depends on the kinetics. If the kinetics was desorption limited, the complete Mg film would be hydrogenated; in particular the top layer would be MgH 2 , too.…”

Why Hydrogen Dissociation Catalysts do not Work for Hydrogenation of Magnesium

“…The growth of a MgH 2 layer is still possible under dynamic conditions as applied in Figure 6, because the local chemical potential in the sample is higher than required to form the hydride. [ 66 ] The local chemical potential is defined by chemical potential at the membrane feed side (which is well above the plateau pressure), and the flux of hydrogen through the entire thin film system, which depends on the kinetics. If the kinetics was desorption limited, the complete Mg film would be hydrogenated; in particular the top layer would be MgH 2 , too.…”

Why Hydrogen Dissociation Catalysts do not Work for Hydrogenation of Magnesium

“…Therefore, the surface conditions have to be considered as they influence the hydrogen permeation. [68] Low hydrogen permeation coatings can be used as hydrogen barriers, to protect the material from external hydrogen. Ro ¨nnebroe et al recently reviewed the actual hydrogen barrier coatings like oxides, nitrides, carbon, carbides, MAX-phases (layered, hexagonal carbides and nitrides, with M being an early transition metal, A being an A-group element and X being either carbon and/or nitrogen) and metals.…”

“…Therefore, the surface conditions have to be considered as they influence the hydrogen permeation. 68…”

Hydrogen Interactions with Defects in Materials

Weakening surface hydrogen to enhance permeation in hydrogen selective membranes