Issue 17, 2024, Issue in Progress

Second phase Cu2O boosted photocatalytic activity of fluorine doped CuO nanoparticles

Abstract

The photocatalytic activity of fluorine (F) doped CuO nanoparticles (NPs) prepared employing modified sol–gel process was investigated here in this study. Structural and elemental characterization using XRD and XPS data confirmed successful incorporation of F as dopant. F doping led to lattice distortion and reduced crystallinity with smaller crystallite size while promoting the emergence of Cu2O as the second phase. Morphological analysis showed irregularly shaped, fused particles with a decreasing particle size trend upon doping. Addition of hydrogen peroxide generated hydroxyl radicals (OH˙) under ultra-violet (UV) light, which effectively degrades pollutants by facilitating the photocatalytic kinetics. Photocatalytic activity of all the nanoparticles was examined against Rhodamine B (Rh B) dye and most efficient degradation (97.78%) was observed for 3 mol% F dopant concentration. The emergence of Cu2O phase for doping beyond 1 mol% F doped CuO might be the prime reason to enhance its degradation performance. Conversely, 5 mol% doping caused notable phase changes and decreased degradation rate (88.05%) due to increased recombination rate in presence of metallic copper. The ability of F doped CuO nanoparticles to disintegrate organic contaminants by producing reactive oxygen species when exposed to UV light suggests their potential effectiveness in applications such as dye degradation, water purification, and environmental sustainability.

Graphical abstract: Second phase Cu2O boosted photocatalytic activity of fluorine doped CuO nanoparticles

Article information

Article type
Paper
Submitted
23 Dec 2023
Accepted
30 Mar 2024
First published
11 Apr 2024
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2024,14, 11677-11693

Second phase Cu2O boosted photocatalytic activity of fluorine doped CuO nanoparticles

A. Dastider, H. Saha, M. J. F. Anik, M. Jamal and Md. M. Billah, RSC Adv., 2024, 14, 11677 DOI: 10.1039/D3RA08790E

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