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Impact of Mo-Doping on the Structural, Optical, and Electrocatalytic Degradation of ZnO Nanoparticles: Novel Approach

by Vanga Ganesh , Thekrayat H. AlAbdulaal , Mervat I. Mohammed , Ibrahim S. Yahia , Mohamed Sh. Abdel-wahab , Mai S. A. Hussien , Heba Y. Zahran , Ummar Pasha Shaik , Ramesh Ade

in Absorption spectra / Chemical properties / Combustion synthesis / Crystallites / Crystallography / Degradation / Dielectric properties / Dielectrics / Doping / Electric properties / Electrical conductivity / electrocatalysis / Methods / Microemulsions / Mo-doped ZnO / Mo-doped ZnO; nanostructured metal oxides; XRD/SEM; optical properties; electrocatalysis / Molybdenum / Nanoparticles / nanostructured metal oxides / Nitrates / Optical properties / Photocatalysis / Pollutants / QD901-999 / Raman spectra / Rhodamine / Scanning electron microscopy / Semiconductor doping / Thin films / Water pollution / Water purification / XRD/SEM / Zinc oxide

2022

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Impact of Mo-Doping on the Structural, Optical, and Electrocatalytic Degradation of ZnO Nanoparticles: Novel Approach

by Vanga Ganesh , Thekrayat H. AlAbdulaal , Mervat I. Mohammed , Ibrahim S. Yahia , Mohamed Sh. Abdel-wahab , Mai S. A. Hussien , Heba Y. Zahran , Ummar Pasha Shaik , Ramesh Ade

2022

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Impact of Mo-Doping on the Structural, Optical, and Electrocatalytic Degradation of ZnO Nanoparticles: Novel Approach

by Vanga Ganesh , Thekrayat H. AlAbdulaal , Mervat I. Mohammed , Ibrahim S. Yahia , Mohamed Sh. Abdel-wahab , Mai S. A. Hussien , Heba Y. Zahran , Ummar Pasha Shaik , Ramesh Ade

2022

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Journal Article

Impact of Mo-Doping on the Structural, Optical, and Electrocatalytic Degradation of ZnO Nanoparticles: Novel Approach

Vanga Ganesh,

Thekrayat H. AlAbdulaal,

Mervat I. Mohammed,

Ibrahim S. Yahia,

Mohamed Sh. Abdel-wahab,

Mai S. A. Hussien,

Heba Y. Zahran,

Ummar Pasha Shaik,

Ramesh Ade

2022

Overview

Pure and Molybdenum (Mo)-doped zinc oxide (ZnO) nanoparticles were prepared by a cost-effective combustion synthesis route. XRD results revealed the decrement in crystallite size of ZnO with an increase in Mo-doping concentration. Optical bandgap (Eg) values were determined using optical reflectance spectra of these films measured in the range of 190–800 nm. The Eg values decreased with increasing the Mo-doping concentration. The dielectric properties of these samples were studied to determine the dielectric constant values. Raman spectra of these samples were recorded to know the structure. These sample absorption spectra were recorded for electrocatalytic applications. All the prepared samples were subjected to electrocatalytic degradation of Rhodamine B. The 0.01 wt% Mo doped ZnO showed 100% in 7 min electrocatalytic degradation.

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Publisher

MDPI AG

Subject

Absorption spectra

/ Chemical properties

/ Combustion synthesis

/ Crystallites

/ Crystallography

/ Degradation

/ Dielectric properties