Abstract
Electrocatalytic water splitting is a promising method for large-scale green hydrogen production. Nevertheless, the electrodes used remain costly and exhibit limited adherence. We should develop alternative techniques using cost-effective materials to achieve robust catalyst-substrate adherence. Herein, we systematically investigate the HER performance of the bimetal Ni-Mo system fabricated by scalelable magnetron sputtering. The formation of the bimetal Ni-Mo system not only significantly increased the HER activity, but it also accelerated the kinetic reaction. The optimal ratio Ni/Mo of 6 enables the achievement of ultra-low overpotentials of 39 and 172 mV at current densities of −10 and −100 mA/cm2, respectively, in alkaline conditions. The performance of the electrode is also evaluated using the single-stack electrolyzer and further assessed in natural seawater. The long-term stability test at 1.6 and 4 A for each 50 hours shows stable performance. The HER improvement mechanism is systematically investigated through experimental and computational calculations.
Published Version
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