Electrodeposition of Fe-W Alloys from Citrate Bath: Impact of Anode Material.

CZU 544.65

DOI  https://doi.org/10.5281/zenodo.3639943

The impact of the anode material on the rate of electrodeposition of Fe-W alloy coatings from a citrate bath is studied. Fe and Ni soluble anodes and Pt and graphite insoluble anodes are addressed. The effects associated with the anode material are attributed to anodic oxidation of an Fe(II)-citrate complex involved in electrodeposition. In addition to its likely oxidation at the anode, this complex catalyzes reduction of W-containing species and acts as a precursor to Fe deposition; these processes unfold via the formation of corresponding intermediates, their surface coverage determining the alloy composition. X-ray photoelectron spectroscopy characterization of deposited alloys indicates that the intermediate FeOH_ads is oxidized by water to form surface oxides, which can explain the previously reported macroscopic size effect, i.e., the influence of the volume current density on the microhardness of deposited alloys. By using a soluble iron anode, an unprecedentedly high rate of alloy deposition (25 μm/h at a current density of 20 mA/cm²) has been achieved.

Keywords: electrodeposition, Fe-W alloys, citrate bath, macroscopic size effect, volume current density, cyclic voltammetry, iron-citrate complexes, microhardness.