Co-deposition of Co–Ni alloy catalysts from an ethylene glycol system for the hydrogen evolution reaction

Abstract: Nanocrystalline Co–Ni catalysts with a high electrochemical active surface area (ECSA) for HER are prepared from ethylene glycol system.

“…The pair of peaks situated at 853.88 eV and 871.14 eV belong to the Ni (2p 1/2 ) and Ni (2p 3/2 ), respectively, of metallic Ni 0 . 35 The additional peaks of Ni (2p 1/2 ) and Ni (2p 3/2 ) centered at binding energies of 855.53 eV and 872. 98 eV attributed to the Ni 2+ ions.…”

Tuning the electrocatalytic nitric oxide reduction activity of copper through alloying with nickel for NH₃ production at low overpotentials

“…The pair of peaks situated at 853.88 eV and 871.14 eV belong to the Ni (2p 1/2 ) and Ni (2p 3/2 ), respectively, of metallic Ni 0 . 35 The additional peaks of Ni (2p 1/2 ) and Ni (2p 3/2 ) centered at binding energies of 855.53 eV and 872. 98 eV attributed to the Ni 2+ ions.…”

Tuning the electrocatalytic nitric oxide reduction activity of copper through alloying with nickel for NH₃ production at low overpotentials

“…Many methods have been considered to synthesize transition metal alloys for electrocatalytic HER, such as sintering [22], pulsed layer deposition [23,24], sol-gel [25], and electrodeposition [3,[26][27][28][29][30][31]. Among these techniques, electrodeposition has the advantage of fewer steps, ease of implementation and control, making it a versatile method for large-scale applications.…”

Electrodeposition of Ni-Co Alloys from Neat Protic Ionic Liquid: Application to the Hydrogen Evolution Reaction

Electrodeposition of Ni-Co alloys from neat protic ionic liquid: Application to the hydrogen evolution reaction