Iron and chromium co-doped cobalt phosphide porous nanosheets as robust bifunctional electrocatalyst for efficient water splitting

Structural and Electrical Properties of Novel Cr/Fe Mixed Transition-Metal Phosphates

The phosphate KCoCr(PO₄)₂ and iron-substituted variants KCoCr_1-xFe_x(PO₄)₂ (x = 0.25, 0.5, and 0.75) were synthesized by a solid-state reaction route, while a high substitution level of Fe was achieved. Their structures were refined using powder X-ray diffraction and indexed in a monoclinic system with a P2₁/n space group. A 3D framework with six-sided tunnels parallel to the [101] direction was formed in which the K atoms are located. Mössbauer spectroscopy confirms the exclusive presence of octahedral paramagnetic Fe³⁺ ions, with isomer shifts increasing slightly with x substitution. Electron paramagnetic resonance spectroscopy confirmed the presence of paramagnetic Cr³⁺ ions. The activation energy, determined by dielectric measurements, shows that the iron-containing samples present higher ionic activity. Relative to the electrochemical activity of K, these materials could be good candidates for positive and/or negative electrode materials for energy storage applications.

Ultrathin NiCo-LDH regulated by CuNiCo trimetallic spinel sulfides as highly active and stable electrocatalysts for overall water splitting

A unique heterostructure of CuNiCo trimetallic spinel sulfides (Cu0.25Ni0.75Co2S4) wrapped by an ultrathin NiCo-LDH layer was constructed. The interfacial interaction between NiCo-LDH and Cu0.25Ni0.75Co2S4 was verified by XPS tests.