Hydrogen sorption and desorption related properties of Pd-alloys determined by cyclic voltammetry

Abstract In this research we present a fast and quantitative electrochemical method – based on cyclic voltammetry (CV) – to screen the hydrogen (H) sorption (adsorption and/or absorption) and desorption behavior of Pd-based alloys. The method consists of a first step in which specimens are potentiostatically loaded with H, followed by a second step in which a CV experiment is performed with a wide-range potential sweep. During the second step, oxidation of H occurs as well as the formation of oxides and their consequent reduction. The H-loading and the CV start potential are the same so that H oxidation is not influenced by other surface reactions as it is the first process to take place. The method is applied to different Pd-alloys (Pd–Au, Pd–Mo–Cu) and it enabled to elucidate the differences in H-sorption/desorption properties of the alloys. X-ray diffraction (XRD) and scanning electron microscopy (SEM) are used to investigate changes in the structure as a function of the H-loading times. It was shown with this work that (i) the phases present in the microstructure have a significant effect on the amount of hydrogen absorbed and the kinetics of absorption, (ii) even very small amounts of desorbed hydrogen can be detected by CV and (iii) alloying elements affect hydrogen sorption/desorption behavior of Pd-based alloys and the interaction strength of H with the surface or the bulk.