Electrocatalytic synergism in Ni/Mo cathodes for hydrogen evolution in acid medium: a new model

The electrocatalytic performance of a model series of Ni/Mo binary solid so lutions for H-2 evolution in aqueous acid is compared with those of physica l mixtures in pressed fine powder form. Synergy is expressed in the alloys down to remarkably low levels of Mo (< 5 at%), and to a significant extent also in physical mixtures. The synergy is best interpreted within the frame work of a Volmer-Heyrovsky mechanism in which simple cooperative functionin g of the components is mediated via rapid intra- and interparticle surface diffusion of H adatoms, i.e. the well-known 'spillover' process in heteroge neous catalysis. In its fresh state, Ni effects initial proton discharge an d acts as H-source for Mo, where ion/atom recombination (and H-2 desorption ) is promoted more efficiently. Deactivation in the alloys is clearly linke d with the Ni component and attributed tentatively to buildup of a subsurfa ce Ni hydride. In its perceived role as surface II-trap and ultimate 'sink' , Mo also serves to protect the Ni from deactivation. The proposed model is simple, hinging mainly on established processes in surface chemistry and ' demystifies' a technically important and long-standing phenomenon in electr ocatalysis. (C) 1999 Elsevier Science Ltd. All rights reserved.