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Large-scale synthesis of Fe3Se4 C composites assembled by aligned nanorods as advanced anode material for lithium storage

Release time:2023-10-20 Hits:

Key Words:carbon defects; fuel cells; oxygen reduction reaction; platinum; single-atom catalysts
Abstract:Maximizing the platinum utilization in electrocatalysts toward oxygen reduction reaction (ORR) is very desirable for large-scale sustainable application of Pt in energy systems. A cost-effective carbon-supported carbon-defect-anchored platinum single-atom electrocatalysts (Pt-1/C) with remarkable ORR performance is reported. An acidic H-2/O-2 single cell with Pt-1/C as cathode delivers a maximum power density of 520 mW cm(-2) at 80 degrees C, corresponding to a superhigh platinum utilization of 0.09 g(Pt) kW(-1). Further physical characterization and density functional theory computations reveal that single Pt atoms anchored stably by four carbon atoms in carbon divacancies (Pt-C-4) are the main active centers for the observed high ORR performance.
Volume:58
Issue:4
Translation or Not:no

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Large-scale synthesis of Fe3Se4 C composites assembled by aligned nanorods as advanced anode material for lithium storage