Journal
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY
Volume 48, Issue 4, Pages 1277-1289Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.ijhydene.2022.10.062
Keywords
Electroplating; Hydrogen penetration; Hydrogen evolution reaction; Rare earth element
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In our previous work, we discovered that the addition of Ce salt to the plating solution can significantly reduce hydrogen permeation during Ni-Cu electroplating. In the present work, we further studied the mechanism of hydrogen permeation inhibition by Ce salt. Through the fitting of the Iver-Pickering-Zamenzadeh (IPZ) model, we found that the precipitation of trace Ce salt during electroplating can improve reaction kinetic parameters and weaken the strength of Ni-H and Cu-H bonds. Ce salt can effectively inhibit hydrogen permeation and reduce the dehydrogenation annealing time, thus offering great potential for energy saving and emission reduction in the electroplating industry.
In our previous work, we found that hydrogen permeation can be noticeably reduced during Ni-Cu electroplating by the addition of Ce salt to the plating solution. The mech-anism of hydrogen permeation inhibition via Ce salt was further studied in the present work. Through the Iver-Pickering-Zamenzadeh (IPZ) model fitting of the kinetic of hydrogen evolution reaction, we found that the trace Ce salt that precipitated during electroplating could improve Tafel reaction kinetic parameters and reduce the strength of the Ni-H and Cu-H bonds due to its abundant d/f electrons and enough d/f orbitals. Meanwhile, Ce can provide electrons for the Heyrovsky reaction. These effects promoted surface electron migration and thus led to the desorption of adsorbed hydrogen atoms (Hads) and the decreased diffusion of Hads into the Ni-Cu coatings. The accuracy of the IPZ model fitting results was verified by hydrogen evolution rate experiments during the electroplating process. Hence, Ce salt can effectively inhibit hydrogen permeation and reduce the dehydrogenation annealing time, thereby showing great potential for energy saving and emission reduction in the electroplating industry. (c) 2022 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.
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