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CMP-on-MOF bimetallic hybrids derived sheet-on-rod heterostructure as bifunctional oxygen electrocatalyst for rechargeable Zn-air batteries
Ist Teil von
Microporous and mesoporous materials, 2022-01, Vol.331, p.111639, Article 111639
Ort / Verlag
Elsevier Inc
Erscheinungsjahr
2022
Link zum Volltext
Quelle
Alma/SFX Local Collection
Beschreibungen/Notizen
As a simple but effective approach to engineer the simultaneous geometric structure and composition diversity into one nano-material, hybrids have geared great research attention, recently. Here, a N-decorated sheet-on-rod heterostructure with hierarchical porosity, as well as homogeneously dispersed Co5.47N, Co0.7Fe0.3, and Fe/Co-Nx species on the phase interface, was developed via pyrolysis of a CMP-on-MOF bimetal hybrid, to achieve the bifunctional oxygen electrocatalytic activity. Conjugated microporous polymers (CMPs) are an emerging class of multifunctional materials combining the features of conventional conjugated polymers and porous materials, simultaneously. CMP-on-MOF was prepared via the assembly of Co-phthalocyanine-CMP (Co-CMP) on the surface of Fe-MIL-88B (Fe-MOF) through a solid-phase synthesis method. The optimized catalyst (PM-900), namely the product of hybrid pyrolysis, is obtained by finely regulating the composition of hybrid (mCMP to mMOF of 1:1) and pyrolysis temperature (900 °C) on the hybrid, simultaneously. The abundant Co5.47N, Co0.7Fe0.3, and atomically dispersed Fe/Co-Nx species are highly catalytically active, and the hierarchical porous structure provides easily accessible pathway for active sites, and the sheet-on-rod structure ensures a high electrical conductivity which is conducive for the catalysis. As a result, the optimum electrocatalyst, denoted as PM-900, presents a superb bifunctional electrocatalytic activity for both the oxygen reduction (ORR) and oxygen evolution reaction (OER) under alkaline conditions. Additionally, a home-made Zn–air battery (ZAB) comprising PM-900 catalyst presents prominent charge-discharge property even outperforms the mixture of Pt/C (20 wt%) and IrO2. The hybrid strategy paves a new avenue for the rational design and synthesis of advanced bifunctional catalysts with intricate and unprecedented porous superstructures for reversible energy storage and conversion applications.
N-decorated sheet-on-rod heterostructure with hierarchical porosity, as well as homogeneously dispersed Co5.47N, Co0.7Fe0.3, and Fe/Co-Nx species on the phase interface, was developed via pyrolysis of a CMP-on-MOF bimetal hybrid, to achieve the bifunctional oxygen electrocatalytic activity. [Display omitted]
•CMP-on-MOF hybrid was employed as precursor for the preparation of bifunctional O2 catalyst.•CMP-on-MOF bimetal was synthesized in the solid phase synthesis method.•Pyrolysis on hybrid yield sheet-on-rod heterostructure with hierarchical porosity.•PM-900 shows uniformly dispersed Co5.47N, Co0.7Fe0.3 and Fe/CoNx on phase interface.•Zn-air battery comprising PM-900 presents prominent charge-discharge property.