Abstract
Metal oxide photocatalyst is one of the promising photocatalysts in the water remediation process. The present work is aimed at synthesizing the green production of TiO2 (G-TiO2) nanoparticles from mulberry plant extract. Plant phytochemicals serve a different role to produce the nanophase particles. The bioreductant is safer and noxious free compound for synthesizing the G-TiO2 nanoparticles. The synthesized G-TiO2 nanoparticles in anatase phase and their crystallite size of 24 nm were characterized from X-ray diffraction analysis. The Ti-O bonding and plant derivatives and their reduction were confined from FTIR analysis. The wide bandgap of G-TiO2 nanoparticles (3.16 eV) and their optical characterization were captured from UV-DRS analysis. The spherical surface morphology and their Ti and O elemental configurations were characterized from FESEM with EDX technique. The photocatalytic dye degradation was examined against methylene blue dye, and their pseudo-first-order kinetics were evaluated. The cyclic experiments declared their catalytic potential. The bacterial resistance of G-TiO2 nanoparticles was examined against gram-positive and gram-negative bacteria. Hence, the catalytic potential and bacterial stability of G-TiO2 nanoparticles are the powerful candidate for water remediation and biomedical applications.
Highlights
IntroductionThe phrase “nanotechnology” refers to the design, manufacture, and application of functional structures with at least one characteristic dimension measured in nanometers [1]
The present work reports the green production of TiO2 (G-TiO2) nanoparticles and their bacterial activity and catalytic dye degradation activity
The photocatalytic activity of synthesized G-TiO2 nanoparticles was evaluated by methylene blue dye under UV light irradiation. 10 ppm dye solution was used in the catalytic activity
Summary
The phrase “nanotechnology” refers to the design, manufacture, and application of functional structures with at least one characteristic dimension measured in nanometers [1]. Optical, electric, and magnetic characteristics, diagnostics, biological probes, and display devices are all areas where metal oxide nanoparticles have a lot of potentials [2] Due to their simple production and eco-loving nature, there is no need of high-cost equipment setup. Green synthesis of nanoparticles has gotten more publicity, because of its low cost, simplicity, scalability, eco-friendliness, and the wide range of metabolites secreted by plants. Proteins, and simple carbohydrates, whereas secondary chemicals include terpenoids, alkaloids, and phenolic chemicals Many health concerns, such as cancer, heart disease, diabetes, and high blood pressure, are being pushed for the prevention and treatment of phytochemicals [9–12]. The present work reports the green production of TiO2 (G-TiO2) nanoparticles and their bacterial activity and catalytic dye degradation activity
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