Please use this identifier to cite or link to this item: https://physrep.ff.bg.ac.rs/handle/123456789/1337
Title: Hydrogen evolution at Ni foam electrodes and Ni-Sn coated Ni foam electrodes
Authors: Gojgić, Jelena D.
Petričević, Aleksandar M.
Rauscher, Thomas
Bernäcker, Christian I.
Weißgärber, Thomas
Pavko, Luka
Vasilić, Rastko 
Krstajić Pajić, Mila N.
Jović, Vladimir D.
Keywords: 3D electrodes;Alkaline water electrolysis;Electrodeposition;Ni-Sn alloys;Porous substrates
Issue Date: 5-Aug-2023
Journal: Applied Catalysis A: General
Abstract: 
The hydrogen evolution reaction (HER) was investigated in 1.0 M KOH at 25 °C at Ni foams with different pore sizes (450–1200 µm), and at the Ni-Sn/Ni foam electrodes, where Ni-Sn alloys were electrodeposited from the pyrophosphate-glycine bath using controlled potential coulometry (CPC) technique. The cross-section analysis revealed that rough Ni-Sn alloy covers complete available inner and outer foam surface, while investigated coating composition varied from 62 to 80 at% Ni (20–38 at% Sn). Comparing the HER polarization curves, the overpotential at j = −200 mA cm−2 was 427 mV lower for Ni-Sn samples than for bare Ni foams, while Tafel slopes changed from − 120 mV dec−1 at bare Ni foams to − 50 mV dec−1 for Ni-Sn/Ni foam samples. The lowest overpotential at − 100 mA cm−2 achieved is as low as − 77 mV. These cathodes could be promising 3D materials for industrial water electrolysis in zero-gap membrane flow cells.
URI: https://physrep.ff.bg.ac.rs/handle/123456789/1337
ISSN: 0926860X
DOI: 10.1016/j.apcata.2023.119312
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