4.6 Article

Spinel-Type (FeCoCrMnZn)3O4 High-Entropy Oxide: Facile Preparation and Supercapacitor Performance

Journal

MATERIALS
Volume 13, Issue 24, Pages -

Publisher

MDPI
DOI: 10.3390/ma13245798

Keywords

(FeCoCrMnZn)(3)O-4; high-entropy oxide; spinel structure; supercapacitor

Funding

  1. National Natural Science Foundation of China [51664043]
  2. Natural Science of Jiangxi Province [20192BAB206007]
  3. Key Laboratory for Microstructural Control of Metallic Materials of Jiangxi (Nanchang Hangkong University) [EJ201901455]

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High-entropy oxides (HEOs) have attracted more and more attention because of their unique structures and potential applications. In this work, (FeCoCrMnZn)(3)O-4 HEO powders were synthesized via a facile solid-state reaction route. The confirmation of phase composition, the observation of microstructure, and the analysis of crystal structure, distribution of elements, and valences of elements were conducted by X-ray diffraction (XRD), scanning electron microscopy (SEM), transmission electron microscopy (TEM), energy-dispersive X-ray spectroscopy (EDS), and X-ray photoelectron spectroscopy (XPS), respectively. Furthermore, a (FeCoCrMnZn)(3)O-4/nickel foam ((FeCoCrMnZn)(3)O-4/NF) electrode was prepared via a coating method, followed by the investigation of its supercapacitor performance. The results show that, after calcining (FeCoCrMnZn)(3)O-4 powders at 900 degrees C for 2 h, a single spinel structure (FCC, Fd-3m, a = 0.8399 nm) was obtained with uniform distribution of Fe, Co, Cr, Mn, and Zn elements, the typical characteristic of a high-entropy oxide. In addition, the mass specific capacitance of the (FeCoCrMnZn)(3)O-4/NF composite electrode was 340.3 F center dot g(-1) (with 1 M KOH as the electrolyte and 1 A center dot g(-1) current density), which indicates that the (FeCoCrMnZn)(3)O-4 HEO can be regarded as a prospective candidate for an electrode material in the field of supercapacitor applications.

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