Issue 58, 2021

Designing a novel visible-light-driven heterostructure Ni–ZnO/S-g-C3N4 photocatalyst for coloured pollutant degradation

Abstract

In this study, photocorrosion of ZnO is inhibited by doping Ni in the ZnO nanostructure and electron–hole recombination was solved by forming a heterostructure with S-g-C3N4. Ni is doped into ZnO NPs from 0 to 10% (w/w). Among the Ni-decorated ZnO NPs, 4% Ni-doped ZnO NPs (4NZO) showed the best performance. So, 4% Ni–ZnO was used to form heterostructure NCs with S-g-C3N4. NZO NPs were formed by the wet co-precipitation route by varying the weight percentage of Ni (0–10% w/w). Methylene blue (MB) was used as a model dye for photocatalytic studies. For the preparation of the 4NZO-x-SCN nanocomposite, 4NZO NPs were formed in situ in the presence of various concentrations of S-g-C3N4 (10–50% (w/w)) by using the coprecipitation route. The electron spin resonance (ESR) and radical scavenger studies showed that O2 and OH free radicals were the main reactive species that were responsible for MB photodegradation.

Graphical abstract: Designing a novel visible-light-driven heterostructure Ni–ZnO/S-g-C3N4 photocatalyst for coloured pollutant degradation

Associated articles

Article information

Article type
Paper
Submitted
04 Nov 2020
Accepted
08 Nov 2021
First published
12 Nov 2021
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2021,11, 36518-36527

Designing a novel visible-light-driven heterostructure Ni–ZnO/S-g-C3N4 photocatalyst for coloured pollutant degradation

A. Bahadur, S. Iqbal, H. O. Alsaab, N. S. Awwad and H. A. Ibrahium, RSC Adv., 2021, 11, 36518 DOI: 10.1039/D0RA09390D

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