Cobalt‐Doped ZnO Nanocomposits for Efficient Dye Degradation: Charge Transfer

Dr. Buzuayehu Abebe; Bontu Kefale; Guta Amenu; Leta Guta; Dr. C. R. Ravikumar; Dr. Taymour A. Hamdalla; Dr. S. Giridhar Reddy; Dr. Dereje Tsegaye; Prof. H. C. Ananda Murthy

doi:10.1002/open.202400203

ChemistryOpen (Dec 2024)

Cobalt‐Doped ZnO Nanocomposits for Efficient Dye Degradation: Charge Transfer

Dr. Buzuayehu Abebe,
Bontu Kefale,
Guta Amenu,
Leta Guta,
Dr. C. R. Ravikumar,
Dr. Taymour A. Hamdalla,
Dr. S. Giridhar Reddy,
Dr. Dereje Tsegaye,
Prof. H. C. Ananda Murthy

Affiliations

Dr. Buzuayehu Abebe: Department of Applied Chemistry Adama Science and Technology University P.O. Box 1888 Adama Ethiopia
Bontu Kefale: Department of Applied Chemistry Adama Science and Technology University P.O. Box 1888 Adama Ethiopia
Guta Amenu: Department of Applied Chemistry Adama Science and Technology University P.O. Box 1888 Adama Ethiopia
Leta Guta: Department of Applied Chemistry Adama Science and Technology University P.O. Box 1888 Adama Ethiopia
Dr. C. R. Ravikumar: Department of Science East-West Institute of Technology Bangalore 560091 India
Dr. Taymour A. Hamdalla: Department of Physics University of Tabuk KSA
Dr. S. Giridhar Reddy: Department of Chemistry Amrita School of Engineering Amrita Vishwa Vidyapeetham Bengaluru 560035 India
Dr. Dereje Tsegaye: Department of Applied Chemistry Adama Science and Technology University P.O. Box 1888 Adama Ethiopia
Prof. H. C. Ananda Murthy: School of Applied Sciences Papua New Guinea University of Technology Lae Morobe Province 411 Papua New Guinea

DOI: https://doi.org/10.1002/open.202400203
Journal volume & issue: Vol. 13, no. 12
pp. n/a – n/a

Abstract

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Abstract Doping enhances the optical properties of high‐band gap zinc oxide nanoparticles (ZnO NPs), essential for their photocatalytic activity. We used the combustion approach to synthesize cobalt‐doped ZnO heterostructure (CDZO). By creating a mid‐edge level, it was possible to tune the indirect band gap of the ZnO NPs from 3.1 eV to 1.8 eV. The red shift and reduction in the intensity of the photoluminescence (PL) spectra resulted from hindrances in electron‐hole recombination and sp‐d exchange interactions. These improved optical properties expanded the absorption of solar light and enhanced charge transfer. The field emission scanning electron microscopy (FESEM) image and elemental mapping analysis confirmed the CDZO′s porous nature and the dopant‘s uniform distribution. The porosity, nanoscale size (25–55 nm), and crystallinity of the CDZO were further verified by high‐resolution transmission electron microscopy (HRTEM) and selected area electron image analysis. The photocatalytic activity of the CDZO exhibited much greater efficiency (k=0.131 min−1) than that of ZnO NPs (k=0.017 min−1). Therefore, doped heterostructures show great promise for industrial‐scale environmental remediation applications.

Published in ChemistryOpen

ISSN: 2191-1363 (Online)
Publisher: Wiley-VCH
Country of publisher: Germany
LCC subjects: Science: Chemistry
Website: https://chemistry-europe.onlinelibrary.wiley.com/journal/21911363

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