Synthesis, microstructure and electrochemical properties of Ni-P-based alloy coatings for hydrogen evolution reaction in alkaline media

Abstract: Alkaline water electrolysis driven by renewable energy is a promising technology for green hydrogen generation. The cathode half-cell reaction i.e., the hydrogen evolution reaction (HER) in alkaline water electrolysis suffers from slow kinetics. Ni-P-based alloys have shown to be an efficient and cost-effective electrocatalyst to accelerate the HER rate. In this study, three Ni-P alloy coatings are prepared via electrodeposition by varying the deposition currents viz. 10 mA cm-2 direct, 10 mAcm-2 and 100 mAcm-… Show more

“…especially, this effect is most visible in the case of the Ni-Fe-P coating, where the formed magnetic field gradient increase the diffusion rate and allow to form many bigger clusters. this type of structure can exhibit locally higher P conentration, where the overpotential value for hydrogen evolution is the lowest, what was also confirmed in other works [48]. Presence of different morphology with application of the perpendicular and parallel magnetic field can significantly modify the electrochemical performance, like corrosion resistance or electrocatalytic activity [49].. the tafel curves determined for Ni-P alloys in the potential range from -1.5 V to -0.6 V were presented in Fig.…”

Catalytic Properties of Electroless Nickel-Based Coatings Modified by the Magnetic Field

“…especially, this effect is most visible in the case of the Ni-Fe-P coating, where the formed magnetic field gradient increase the diffusion rate and allow to form many bigger clusters. this type of structure can exhibit locally higher P conentration, where the overpotential value for hydrogen evolution is the lowest, what was also confirmed in other works [48]. Presence of different morphology with application of the perpendicular and parallel magnetic field can significantly modify the electrochemical performance, like corrosion resistance or electrocatalytic activity [49].. the tafel curves determined for Ni-P alloys in the potential range from -1.5 V to -0.6 V were presented in Fig.…”

Catalytic Properties of Electroless Nickel-Based Coatings Modified by the Magnetic Field