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Ecotoxicity of ~ 1 nm silver and palladium nanoclusters protected by L-glutathione on the microbial growth under light and dark conditions

Research Authors
Mostafa Farrag, Ramadan A. Mohamed
Research Abstract

Herein, we synthesized some ultra small silver nanoclusters (AgNCs) and palladium nanoclusters
(PdNCs) protected by L-glutathione (L-GSH) reduced ligand to study their antimicrobial properties in the
visible and dark conditions. These clusters can be dissolved, dried, and redissolved in water without
suffering from any agglomeration or degradation. The particles sizes of the synthesized nanoclusters
were around 1 nm, which investigated by high-resolution transmission electron microscopy (HRTEM).
The optical properties of the synthesized nanoclusters were studied by UV–vis spectroscopy. Agn(SG)m
clusters exhibited two plasmon peaks in the visible region at 478 and 641 nm. However, Pdn(SG)m clusters
showed a steep rise absorption in the short wavelength range of the spectrum and featureless in the
visible region. Fourier transform infrared spectroscopy (FTIR) was measured for the free ligand and
protected clusters Agn(SG)m and Pdn(SG)m. Compared with palladium nanoclusters (in vitro), silver
nanoclusters exhibited higher biocidal activity (MIC). The influence of silver and palladium nanoclusters
(0.0, 2.5, 3.5, 5.0, 8.0 mg/l) on soil fungal community density was investigated under dark and light
condition. Interestingly, silver NPs were more effective than palladium nanoclusters. Moreover, silver NPs
were more effective in light than in the dark. However, palladium nanoclusters showed more or less
similar effect under both contrasting conditions. This might be attributed to the disappearance of the
plasmonic effect of palladium clusters in the UV–vis region. The novelty of our method is due to using
ligand (L-GSH) as a capping agent with palladium. Besides, L-glutathione is considered as a part of the
microbial system to detoxify metals. This guarantees the safety of the synthesized nanoparticles to be
applied commercially than the naked isotopes. These nanoclusters could be considered a basic unit for
medicine industry such as drug delivery tools or applied in paints industry (antimicrobial agents).

Research Journal
Journal of Photochemistry and Photobiology A: Chemistry
Research Publisher
Elsevier
Research Rank
1
Research Vol
330
Research Website
http://www.sciencedirect.com/science/article/pii/S1010603016302593
Research Year
2016
Research Pages
117–125