Highly Efficient Cobalt Sulfide Heterostructures Fabricated on Nickel Foam Electrodes for Oxygen Evolution Reaction in Alkaline Water Electrolysis Cells

Abstract: Non-noble metal electrocatalysts for the oxygen evolution reaction (OER) have recently gained particular attention. In the present work, a facile one-step electrodeposition method is applied in situ to synthesize cobalt sulfide nanostructures on nickel foam (NF) electrodes. For the first time, a systematic study is carried out on the impact of the Co/S molar ratio on the structural, morphological, and electrochemical characteristics of Ni-based OER electrodes by employing Co(NO3)2·6 H2O and CH4N2S as Co and S … Show more

“…[3][4][5] Hydrogen gas produced through water electrolysis depends on the electrochemically active surface area (ECSA), the intrinsic activity, and the synergetic effect between the different electrode counterparts [6,7]. There are various techniques in the literature that enlarge the ECSA of an electrode, such as electrodeposition [8,9], hydrothermal processes [10][11][12], electrospinning [13], vapor deposition [14,15], laser nano-structuring [16][17][18], etc. Laser nano-structuring, in particular, provides the best control of the morphological parameters, resulting in a uniformly fabricated electrode surface with predictable nanostructures [19,20].…”

Laser-nanostructured substrates for enhanced hydrogen evolution reaction

“…[3][4][5] Hydrogen gas produced through water electrolysis depends on the electrochemically active surface area (ECSA), the intrinsic activity, and the synergetic effect between the different electrode counterparts [6,7]. There are various techniques in the literature that enlarge the ECSA of an electrode, such as electrodeposition [8,9], hydrothermal processes [10][11][12], electrospinning [13], vapor deposition [14,15], laser nano-structuring [16][17][18], etc. Laser nano-structuring, in particular, provides the best control of the morphological parameters, resulting in a uniformly fabricated electrode surface with predictable nanostructures [19,20].…”

Laser-nanostructured substrates for enhanced hydrogen evolution reaction

Electrodeposition mode effects on the electrochemical performance of cobalt sulfide material for supercapacitors

NiO nanolayer electrodeposited with Cobalt and Phosphide as a novel supercapacitor with high areal capacitance