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Article Abstract
The dynamic dissolution of active species of electrocatalysts suffers severe durability issues, thus limiting practical sustainable electrochemical application despite the enormous strides in the activity. An atomistic understanding of the dynamic pattern is a fundamental prerequisite for realizing prolonged stability. Herein, modeling on NiFe LDHs, multiple operando spectroscopies revealed the structural oscillation of the local [Ni-O-Fe] unit identified a strong dependence on the alternant Fe dissolution and redeposition during the oxygen evolution reaction (OER) process, thus mediating the dynamic stability. At this point, a proof-of-concept strategy with S, Co co-doping was demonstrated to tune structural oscillations. In situ S leaching that alleviates the lattice mismatch suppresses Fe dissolution, while the electron-withdrawing Co as a deposition site promotes Fe redeposition, thus achieving the reversible oscillation of local [Ni/Co-O-Fe] units and dynamic stability. The implementation of the modified NiFe LDH in industrial water electrolysis equipment operated steadily over 800 h (5000-h lifetime obtained by epitaxial method with 10% attenuation) with an energy consumption of 4.05 kWh Nm H @ 4000 A m. The levelized cost of hydrogen of US$ 2.315 per kg overmatches the European Commission's target for the coming decade (
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