Mechanochemistry as an Alternative Method of Green Synthesis of Silver Nanoparticles with Antibacterial Activity: A Comparative Study

This study shows mechanochemical synthesis as an alternative method to the traditional green synthesis of silver nanoparticles in a comparative manner by comparing the products obtained using both methodologies and different characterization methods. As a silver precursor, the most commonly used sil...

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Bibliographic Details
Published in:Nanomaterials (Basel, Switzerland) Switzerland), 2021-04, Vol.11 (5), p.1139
Main Authors: Baláž, Matej, Bedlovičová, Zdenka, Daneu, Nina, Siksa, Patrik, Sokoli, Libor, Tkáčiková, Ľudmila, Salayová, Aneta, Džunda, Róbert, Kováčová, Mária, Bureš, Radovan, Bujňáková, Zdenka Lukáčová
Format: Article
Language:English
Subjects:
Ag nanoparticles
Antibacterial activity
Comparative studies
Crystallites
Crystals
green synthesis
Investigations
Lavandula angustifolia
Mass ratios
mechanochemistry
Nanoparticles
Nitrates
Particle size
Particle size distribution
Reducing agents
Silver
Silver chloride
Silver nitrate
Size distribution
solid-state synthesis
Synthesis
Transmission electron microscopy
X-ray diffraction
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Summary:This study shows mechanochemical synthesis as an alternative method to the traditional green synthesis of silver nanoparticles in a comparative manner by comparing the products obtained using both methodologies and different characterization methods. As a silver precursor, the most commonly used silver nitrate was applied and the easily accessible lavender ( L.) plant was used as a reducing agent. Both syntheses were performed using 7 different lavender:AgNO mass ratios. The synthesis time was limited to 8 and 15 min in the case of green and mechanochemical synthesis, respectively, although a significant amount of unreacted silver nitrate was detected in both crude reaction mixtures at low lavender:AgNO ratios. This finding is of particular interest mainly for green synthesis, as the potential presence of silver nitrate in the produced nanosuspension is often overlooked. Unreacted AgNO has been removed from the mechanochemically synthesized samples by washing. The nanocrystalline character of the products has been confirmed by both X-ray diffraction (Rietveld refinement) and transmission electron microscopy. The latter has shown bimodal size distribution with larger particles in tens of nanometers and the smaller ones below 10 nm in size. In the case of green synthesis, the used lavender:AgNO ratio was found to have a decisive role on the crystallite size. Silver chloride has been detected as a side-product, mainly at high lavender:AgNO ratios. Both products have shown a strong antibacterial activity, being higher in the case of green synthesis, but this can be ascribed to the presence of unreacted AgNO . Thus, one-step mechanochemical synthesis (without the need to prepare extract and performing the synthesis as separate steps) can be applied as a sustainable alternative to the traditional green synthesis of Ag nanoparticles using plants.
ISSN:2079-4991
2079-4991
DOI:10.3390/nano11051139