Abstract
Metal alloys have become a ubiquitous choice as catalysts for electrochemical hydrogen evolution in alkaline media. However, scarce and expensive Pt remains the key electrocatalyst in acidic electrolytes, making the search for earth-abundant and cheaper alternatives important. Herein, we present a facile and efficient synthetic route towards polycrystalline Co3Mo and Co7Mo6 alloys. The single-phased nature of the alloys is confirmed by X-ray diffraction and electron microscopy. When electrochemically tested, they achieve competitively low overpotentials of 115 mV (Co3Mo) and 160 mV (Co7Mo6) at 10 mA cm−2 in 0.5 M H2SO4, and 120 mV (Co3Mo) and 160 mV (Co7Mo6) at 10 mA cm−2 in 1 M KOH. Both alloys outperform Co and Mo metals, which showed significantly higher overpotentials and lower current densities when tested under identical conditions, confirming the synergistic effect of the alloying. However, the low overpotential in Co3Mo comes at the price of stability. It rapidly becomes inactive when tested under applied potential bias. On the other hand, Co7Mo6 retains the current density over time without evidence of current decay. The findings demonstrate that even in free-standing form and without nanostructuring, polycrystalline bimetallic electrocatalysts could challenge the dominance of Pt in acidic media if ways for improving their stability were found.
Highlights
The share of wind and solar in global electricity output has reached 9% in Q1 2020 [1,2]
Metal alloys show electrocatalytic performance superior to their individual metal counterparts [13,14,15]. This synergetic effect has been successfully exploited in alkaline electrolytes [7,9,15], but only limited attempts have been made to investigate the electrocatalytic performance of polycrystalline products with well-defined structures and compositions in acidic media [16,17,18,19]
Scanning Electron Microscopy (SEM) was performed using a Phillips XL30 ESEM instrument equipped with an Oxford Instruments X-act spectrometer for Energy Dispersive X-ray Spectroscopy (EDXS) measurements
Summary
The share of wind and solar in global electricity output has reached 9% in Q1 2020 [1,2]. Less than 0.1% of global hydrogen currently comes from water electrolysis This can change rapidly if electrolysis is used as a storage platform for mitigating seasonal variations in electricity output rather than as a stand-alone method of. Metal alloys show electrocatalytic performance superior to their individual metal counterparts [13,14,15] This synergetic effect has been successfully exploited in alkaline electrolytes [7,9,15], but only limited attempts have been made to investigate the electrocatalytic performance of polycrystalline products with well-defined structures and compositions in acidic media [16,17,18,19]. Polycrystalline free-standing Co3 Mo has a poor electrochemical stability This makes it a suboptimal choice as an electrocatalyst compared with Co7 Mo6 , which retained its performance after prolonged hours of testing
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