Synthesis of Zn–Bi nano-composite coatings by an ionic co-discharge process

This communication reports a novel synthesis technique for Zn–Bi nano-composite coatings by an ionic co-discharge process. Zn2+ and Bi3+ ions were co-discharged on the surface of the cathode to form Zn and Bi atoms. Zn atoms formed a continuous Zn coating matrix while Bi atoms formed Bi nano-particles (∼50 nm) which were uniformly distributed in the coating matrix. This novel process does not use the particle-mixing method in the traditional nano-composite electroplating, therefore avoiding the agglomeration of nano-particles. The Zn–Bi nano-composite coatings exhibited much better corrosion resistance than Zn coatings. We believe that the ionic co-discharge process may open up a new horizon in the synthesis of nano-composite coatings.

► An ionic co-discharge process was explored to synthesize Zn–Bi nano-composites. ► Bi nano-particles (∼50 nm) were in-situ incorporated in the coating matrix. ► The agglomeration of nano-particles was completely avoided. ► The Zn–Bi nano-composites exhibited better corrosion resistance than Zn coatings. ► The ionic co-discharge process opens a wide door to synthesize nano-composites.