Ultrathin Ni-Fe MOF Nanosheets: Efficient and Durable Water Oxidation at High Current Densities.
Xin ZhaoYang YangYue LiuJunYu ShiQiaoxia LiQunjie XuWen-Feng LinPublished in: Langmuir : the ACS journal of surfaces and colloids (2024)
Efficient, durable, and economical electrocatalysts are crucial for advancing energy technology by facilitating the oxygen evolution reaction (OER). Here, ultrathin Ni-Fe metal-organic skeleton (MOF) nanosheets were created in situ on nickel foam (NiFe-UMNs/NF). The catalyst exhibited excellent OER catalytical abilities, with only 269 mV overpotentials at 250 mA cm -2 . Besides, when integrated with Pt/C/NF, NiFe-UMNs/NF held the potential for application in industrial alkaline water electrolysis with an initial voltage retention of approximately 86% following a continuous operation of 100 h at a current density of 250 mA cm -2 . The super performance of the NiFe-UMNs/NF catalyst was attributed to ultrathin morphology, super hydrophilicity, and synergistic effects between Ni and Fe within the MOF. In situ Raman showed that NiFe-UMNs were converted to NiFeOOH as the active species in the OER process. Density functional theory revealed that iron doping accelerated the rate-determining step and reduced the OER reaction energy barrier. This work elucidated a promising electrocatalyst for OER and enriched the practical implementation of MOF materials.
Keyphrases
- metal organic framework
- signaling pathway
- lps induced
- density functional theory
- pi k akt
- nuclear factor
- oxidative stress
- healthcare
- inflammatory response
- heavy metals
- molecular dynamics
- risk assessment
- immune response
- wastewater treatment
- nitric oxide
- drug delivery
- quality improvement
- toll like receptor
- reduced graphene oxide
- electron transfer
- cell proliferation
- raman spectroscopy
- water soluble