Innovative design of nanocatalyst with high activity remains to be great challenge. Platinum (Pt) nanoparticle has already demonstrated to be excellent candidates in the field of catalysis. However, the scarcity and high price significantly hinder its large-scale production. In this work, dumbbell-like alloying nanoparticle of platinum-iron/ferroferric oxide (PtFeFe3O4) was prepared. On one hand, the design of the alloying nanoparticle can manipulate the d-band center of Pt, in further, the interaction with substrates. In addition, the dumbbell-like structured PtFeFe3O4 can offer heterogeneous interface, of which the interaction between PtFe and Fe3O4, supported by the X-ray photoelectron spectroscopic (XPS) results, leads to the enhanced catalytic efficiency. On the other hand, the introduction of Fe (iron) composition largely decreases the necessary amount of Pt, leading to efficient cost reduction. Moreover, to avoid the aggregation related activity attenuation problem, PtFeFe3O4 nanoparticle located in cavity of nitrogen heteroatom-doped carbon shell (PtFeFe3O4@NC) as yolk@shell nanostructure was constructed and its improved catalytic performance was demonstrated towards the reactions of 4-nitrophenol (4-NP) reduction, β-ionone and benzhydrol oxidation.
Keywords: 4-NP reduction; Heterogeneous interface; PtFeFe(3)O(4) alloying nanoparticle; Yolk@shell nanostructure; β-ionone and benzhydrol oxidation.
Copyright © 2021 Elsevier Inc. All rights reserved.