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Preparation of Co and Ni doped ZnO nanoparticles served as encouraging nano-catalytic application

Moazzam AliSolar Cell Applications Research Lab, Department of Physics, Government College University, Lahore, 54000, PakistanSumaira SharifSolar Cell Applications Research Lab, Department of Physics, Government College University, Lahore, 54000, PakistanSamin AnjumDepartment of Physics, COMSATS Institute of Information Technology, Lahore 54000, PakistanMuhammad ImranState key Laboratory of Chemical Resource Engineering, Beijing Advanced Innovation Centre for Soft Matter Science and Engineering, Beijing Engineering Center for Hierarchical Catalysts, Beijing University of Chemical Technology, Beijing 100029, People’s Republic of ChinaMuhammad IkramSolar Cell Applications Research Lab, Department of Physics, Government College University, Lahore, 54000, PakistanMisbah NazBiochemistry Lab, Department of Chemistry, Government College University Lahore, 54000, Punjab, PakistanSajid AliDepartment of Physics, Riphah Institute of Computing and Applied Sciences (RICAS), Riphah International University, 14 Ali Road, Lahore, Pakistan
2019en
ABI

Аннотация

Nickel (Ni) and cobalt (Co) doped ZnO nanoparticles were prepared using simple and cost-effective sol-gel technique. Effects of various weight ratios (5, 10, 15 and 20) % of Co and Ni-doped into ZnO have been examined. The prepared undoped and doped nanoparticles (NPs) were characterized using XRD, SEM, FTIR, EDX and UV-Vis spectroscopy. By analyzing the catalysis potential of the samples under UV irradiation, the probable mechanism of particles was investigated. XRD results revealed that ZnO and doped ZnO have hexagonal wurtzite phase, the lattice strain and particle size were measured by Williamson and Hall plot. The absorption increased and band gap energy decreased gradually in the range of 2.40–3.62 eV upon doping was identified using UV-Vis spectroscopy. The elemental composition of Zn, Ni and O were confirmed with EDX spectra and FTIR spectra demonstrate the presence of chemical bonding and functional groups at the interface of ZnO. This report highlights the effect of nanocatalyst on the degradation rate of methylene blue through NaBH4, results revealed that doped nanocatalyst has better catalytic action than ZnO and will provide an insight for the synthesis of catalytic agents that could prevent environment pollution issue.

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