Abstract
Electrocatalytic water splitting is one of the most favorable methods for industrial-scale hydrogen production, but high cost and scarcity of commercially available noble metals restrict its application for hydrogen evolution reaction (HER). It is challenging to develop efficient non-noble metal-based electrocatalysts for HER. Herein, a Ni–Cr was doped on Copper foam (CF) substrate by adopting a simple annealing process. The high electrocatalytic efficiency for HER was achieved with Ni–Cr@CF electrode in strong basic medium with a lower overpotential of 144 mV to gain a current density of 10 mA cm−2 with a small Tafel slope of 88 mV dec−1. After surface modification, the CF substrate exhibits that the entire surface was uniformly covered with Ni–Cr species ensuring the fast reaction kinetics due to the efficient electron transfer process between the substrate and active catalyst. Moreover, the Ni–Cr@CF electrode exhibits excellent stability up to 2000 cycles under the strong basic medium.
The hierarchical surface structure of Ni–Cr on conductive Cu substrate has been explored as robust electrocatalyst for hydrogen evolution reaction. [Display omitted]
•Hierarchical structure of Ni–Cr on Copper foam (CF) substrate was attained.•The high electrocatalytic efficiency for HER was achieved with Ni–Cr@CF electrode.•Ni–Cr@CF electrode exhibited excellent stability up to 2000 cycles.•Ni–Cr@CF electrode proved as robust electrocatalyst for HER.