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Abstract:The superior electrocatalysts for seawater oxygen evolution reaction (OER) require fast kinetic to promote reactant (OH-) transport and adsorption, and to optimize oxygenated intermediates (O* and OOH*) adsorption, but also high corrosion resistance by impeding Cl- adsorption under harsh seawater conditions, while the incomprehensive design greatly hinder the system advancement at high current densities. Herein, we propose orderly incorporating amorphous FeSe nanosheets as the dynamic anti-corrosion layer to reinforce charge redistribution of CoNi layered double hydroxide (LDH) nanosheets array and create favorable microenvironments. The ordered two-dimensional/three-dimensional structure prepared by novel non-equilibrium electrodeposition strategy allows amorphous FeSe component not only to activate CoNi-LDH for promoting OH- adsorption, optimizing oxygenated intermediates adsorption and increasing Cl- adsorption energy, but also repel Cl- by dynamic polyanion layer without blocking active sites, thus affording effective seawater OER with low overpotential, excellent stability and high selectivity at high current densities. The integrated CoNi-LDH/FeSe electrode delivers a small overpotential (338 mV at 500 mA cm(-2)) and possesses outstanding stability and selectivity during a 500-hour durability test at 500 mA cm(-2) in alkaline seawater.
Volume:498
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Translation or Not:no