A Fast and Robust Approach for the Green Synthesis of Spherical Magnetite (Fe3O4) Nanoparticles byTilia tomentosa(Ihlamur) Leaves and its Antibacterial Studies

Author:

Rajendrachari Shashanka1ORCID,Karaoglanli Abdullah Cahit1,Ceylan Yusuf2,Uzun Orhan34

Affiliation:

1. Department of Metallurgical and Materials Engineering, Bartin University, Bartin-74100, Turkey.

2. Department of Molecular Biology and Genetics, Bartın University, Bartin, Turkey.

3. Rectorate of Bartin University, Bartin, Turkey.

4. Department of Physics, Ankara University, Ankara, Turkey.

Abstract

Background:In the past few years, Magnetite (Fe3O4) nanoparticles have gained a significant research interest in the field of biology, chemistry, metallurgy due to their wide range of applications. Some of their important applications include drug delivery, chemotherapy, low-friction seals, magnetic fluid, adsorbent, recovery of hazardous wastes, etc.Methods:In the present paper, we reported an eco-friendly route of preparing magnetite nanoparticles by using leaves of Tilia Tomentosa (Ihlamur) followed by calcination at 400 ˚C for 15 minutes.Results:The bandgap energy of the prepared Fe3O4nanoparticles was studied by UV–Visible spectroscopy and the value was found to be 3.31 eV. The scanning electron microscopy (SEM) image showed the spherical magnetite nanoparticles with an average size of 25 nm. The phases and thermal properties of Fe3O4nanoparticles were studied by using X-ray diffraction, thermogravimetric (TG) and differential thermal analysis (DTA). The enthalpy change of Fe3O4nanoparticles was calculated by using the DTA curve and the value was found to be 4.97 kJ/mol at 8˚C/min heating rate. The antimicrobial activity of Fe3O4nanoparticles was carried out by the minimum inhibition concentration (MIC) assay method. Except for B. subtilis, Fe3O4nanoparticles demonstrated significant antibacterial property.Conclusion:The prepared magnetite nanoparticles showed excellent thermal stability and less weight loss over a 30–1000 ˚C temperature range. The size of the prepared magnetite nanoparticles is very less therefore they interacted effectively with the organelle, enzymes, and cells of bacteria and inhibited bacterial growth by killing them.

Publisher

Maad Rayan Publishing Company

Subject

General Pharmacology, Toxicology and Pharmaceutics,Pharmaceutical Science

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