Carbon nanotube/metal organic framework hybrid scaffolds for scalable and self-structured OER catalyst coating: From rheology study to MEA fabrication

Authors
Lee, SuhyeonJi, YunseongDoo, GisuKim, MinjoongShin, JooyoungKim, ChansolHan, Man HoLee, Woong HeeLee, Jong HyupKwak, YeonjiChoi, EunjiCho, YonghwiLee, Choong HooKim, MinsuPark, Jung TaeKim, Dae Woo
Issue Date
2025-04
Publisher
Elsevier BV
Citation
Chemical Engineering Journal, v.509
Abstract
We developed a scalable binder-free composite electrode layer fabrication method by integrating Fe-Ni-based MIL-101 MOF catalysts for the oxygen evolution reaction (OER) with carbon nanotube (CNT) scaffolds. This synergy significantly enhanced active site exposure, as the MOF uniformly dispersed across the CNT surface, forming a 3D electroconductive structure. In particular, the MOFs are further transformed into the hybrid structure of metal hydroxide and organic compounds during OER conditions, leading to an enhanced and stable catalytic layer. The resulting electrode exhibited improved catalytic performance, with overpotentials of 263 mV at 10 mA/cm2 and 355 mV at 100 mA/cm2 in half-cell tests. In an alkaline exchange membrane water electrolyzer (AEMWE), the electrode achieved a voltage of 1.8 V at 1 A/cm2, with an overpotential 0.69 V lower than that of the conventional IrOx/Nafion_CC electrode at a loading of 0.2 mg cm-2. Our method effectively overcomes the scalability challenges associated with traditional catalyst growth strategies and demonstrates that MOF materials can function as electrocatalysts without further treatment.
Keywords
OXYGEN; ELECTROCATALYSTS; MEMBRANE; PERFORMANCE; ELECTRODES; ENERGY; Metal-organic framework; Oxygen evolution reaction; Carbon nanotube; Large-area catalyst coating; Membrane electrode assembly
ISSN
1385-8947
URI
https://pubs.kist.re.kr/handle/201004/152200
DOI
10.1016/j.cej.2025.161533
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