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Physical and photo-electrochemical properties of NiCr2O4/ZnO: application to the photo-oxidation of OII under solar light

S. Mirad, G. Rekhila, Y. Azoudj, and M. Trari

Laboratory of Storage and Valorization of Renewable Energies, Faculty of Chemistry, USTHB, Algiers, Algeria

 

E-mail: rekhilagharib@gmail.com

Received: 15 April 2024  Accepted: 23 July 2024

Abstract:

The photoelectrochemical characterization of the spinel NiCr2O4 synthetized by sol gel route was investigated. The thermal analysis showed that the single phase is formed above 530 °C as confirmed by X-ray diffraction. The direct optical transition (1.79 eV), determined from the diffuse reflectance, is assigned to the lifting degeneracy of Cr3+: 3d3 orbital octahedrally bonded to O2− ions. Field-dependent magnetization, measured at 300 K in the range (± 20 kOe), shows a maximum magnetization of ~ 0.16 emu/g with no saturation and a weak coercivity of 67 Oe. The thermal variation of the electrical conductivity indicates localized 3d-electrons and the data are fitted by a low lattice-polaron hopping with an activation energy of 0.17 eV, characteristic of a semiconducting behavior. A flat band potential (Efb) of − 0.23 VSCE with p-type nature was deduced from the variation of the capacitance (C−2) on the potential (E) of the junction NiCr2O4/Na2SO4. The p-type conduction is corroborated by the positive thermo-power (S300K = 123 µV K−1), supporting the non-degenerate semi-conductivity. The electron transfer from the conduction band (− 1.85 VSCE) to dissolved oxygen is predicted from the potential diagram, constructed from the physic-chemical properties; this allows the oxidation of Orange II (O II) upon solar light. Similarly, ZnO enhanced the photoactivity by 68% with loading the spinel as sensitizer. O II is mineralized by O2•− radicals at pH ~ 7 within 1 h on the heterosystem NiCr2O4 (60%)/ZnO for O II concentration of 20 mg L−1. The removal color obeys a pseudo first order kinetic with a rate constant of 0.023 min−1 (t1/2 = 23 min).

Keywords: Spinel NiCr2O4; Magnetism; Photoelectrochemical; Orange II; Photocatalysis; Solar light

Full paper is available at www.springerlink.com.

DOI: 10.1007/s11696-024-03626-9

 

Chemical Papers 78 (13) 7623–7631 (2024)

Wednesday, November 27, 2024

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