Hierarchical ternary CoFeMn selenides with nanowire-nanosheet-nanoparticles for ultra-efficient bifunctional water-urea electrocatalysis

Layered double hydroxides (LDHs) have unique crystal structure and excellent catalytic activityc[1]. However, its low conductivity limits the charge transfer efficiency and actual catalytic performance[2]. In this study, ternary selenide[3] heterostructures derived from LDHs are prepared, and the effect of different selenium concentrations on the morphology and electrocatalytic performance are systematically studied. When the ratio of Se to Fe is 5:1, the obtained Co3Se4/Fe3Se4/MnSe ((CoFeMn)Se5) electrocatalyst possesses a unique nanowirenanosheet-nanoparticles composite morphology, and significantly improves its conductivity. (CoFeMn)Se5 has the maximum electrocatalytic activity of oxygen evolution reaction (OER): 1.480 V@100 mA/cm2; urea oxidation reaction (UOR): 1.374 V@100 mA/cm2 and overall water splitting (OWS): 1.765 V@100 mA/cm2. This work provides new ideas and references for the design of efficient electrocatalysts for OWS.