Enhancing the electrocatalytic OER activity of Co-MOFs through labile solvents coordination

Abstract: The coordination environment and networks of metal-organic frameworks (MOFs) plays significant role on the functional properties especially catalysis. In recent years, the use of MOFs for electrocatalytic water splitting reactions...

“…The results showed an increase in the percentage content of both Fe and Ni, which might be due to the change in morphology that allows the electron beam to hit deeper material. The content of C decreased, the content of O increased, and the LSV performance was better after the stability test, indicating that the real electrocatalytic active component in the material might be the metal hydroxide or oxyhydroxide generated by the electrochemical reconstruction of crystalline Co 0.45 Fe 0.45 Ni 0.9 -MOF/NF [46,56,57].…”

Shape–Preserved CoFeNi–MOF/NF Exhibiting Superior Performance for Overall Water Splitting across Alkaline and Neutral Conditions

“…The results showed an increase in the percentage content of both Fe and Ni, which might be due to the change in morphology that allows the electron beam to hit deeper material. The content of C decreased, the content of O increased, and the LSV performance was better after the stability test, indicating that the real electrocatalytic active component in the material might be the metal hydroxide or oxyhydroxide generated by the electrochemical reconstruction of crystalline Co 0.45 Fe 0.45 Ni 0.9 -MOF/NF [46,56,57].…”

Shape–Preserved CoFeNi–MOF/NF Exhibiting Superior Performance for Overall Water Splitting across Alkaline and Neutral Conditions

“…Co-MOF 4 exhibits outstanding performance and is even better than many similar MOF-based catalysts (Table S11). ,− …”

Robust High-performance Bifunctional Porous Cobalt MOF-Based Catalysts for Overall Water Splitting

“…23–25 The large porous surface area and ligand tailorability of MOFs made them potential materials for gas storage, catalysis, energy and environmental remediation applications. 26–33 The high surface area and tunable porosity with tailorable functionality of MOFs are highly desired for adsorption of dyes from water. 34–38 Ethylenediamine-grafted MIL-101 exhibited higher MO dye adsorption compared to the MIL-53 MOF due to the increased electrostatic interactions between methyl orange (MO) and the adsorbent.…”

Highly enhanced cationic dye adsorption from water by nitro-functionalized Zn-MOF nano/microparticles and a biomolecular binder for improving the reusability