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Hetero MOF‐On‐MOF of Ni‐BDC/NH<sub>2</sub>‐MIL‐88B(Fe) Enables Efficient Electrochemical Seawater Oxidation

Yanji Bao, Haifeng Ru, Yifeng Wang, Kexi Zhang, Rentong Yu, Qiang Wu, Aimin Yu, Dong‐Sheng Li, Chenghua Sun, Weiwei Li, Jinchun Tu

2024Advanced Functional Materials118 citationsDOIOpen Access PDF

Abstract

Abstract Seawater electrolysis is a sustainable technology for producing hydrogen that would neither cause global freshwater shortages nor create carbon emissions. However, this technology is severely hampered by the insufficient stability and the competition from the chlorine evolution reaction (ClER) in actual application. Herein, a metal–organic framework (MOF)‐on‐MOF heterojunction (Ni‐BDC/NH 2 ‐MIL‐88B(Fe)) denoted as (Ni‐BDC/NM88B(Fe)) is synthesized as an effective oxygen evolution reaction (OER) electrocatalyst for high‐performance seawater electrolysis, which exhibits a long stability of 200 h and low overpotentials of 232 and 299 mV at 100 mA cm −2 in alkaline freshwater and seawater solution, respectively. The exceptional performance is attributed to the rapid self‐reconstruction of Ni‐BDC/NM88B(Fe) to produce NiFeOOH protective layer, thereby avoiding ClER‐induced dissolution. Moreover, the interface interaction between Ni‐BDC and NM88B(Fe) could form the Ni─O─Fe bonds in Ni‐BDC/NM88B(Fe) to promote the electron transfer and lower the energy barrier of the rate‐determining step, thereby accelerating the OER. These electrochemical properties make it intriguing candidate as an efficient electrocatalyst for practical alkaline seawater electrolysis.

Topics & Concepts

Oxygen evolutionMaterials scienceElectrocatalystSeawaterElectrochemistryElectrolysisChemical engineeringMetal-organic frameworkInorganic chemistryWater splittingDissolutionElectrolysis of waterCatalysisAdsorptionElectrodeChemistryPhysical chemistryElectrolyteGeologyEngineeringBiochemistryOceanographyPhotocatalysisElectrocatalysts for Energy ConversionAdvanced battery technologies researchElectrochemical Analysis and Applications