Effect of Surfactants and Polymers on Stability and Antibacterial Activity of Silver Nanoparticles (NPs)

Kvı́tek, Libor; Panáček, Aleš; Soukupová, Jana; Kolář, Milan; Večeřová, Renata; Prucek, Robert; Holecová, and Mirka; Zbořil, Radek

doi:10.1021/jp711616v

Cited by 881 publications

(600 citation statements)

References 34 publications

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“…Though silver nanoparticles are extensively used as an antimicrobial agent, their exact mechanism of inhibition is still unclear. One of the probable mechanism is that silver nanoparticles attach to the surface of the cell membrane, the respiratory function and permeability of the bacterial cells become unstable (Kvitek et al 2008). According to Gogoi (Gogoi et al 2006), the negatively charged cell surface of E. coli is easily dislodged by Ag ?…”

Section: Discussionmentioning

confidence: 99%

Green synthesis of silver nanoparticles using Azadirachta indica leaf extract and its antimicrobial study

et al. 2017

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In this study, green synthesis of silver nanoparticles was done using leaf extracts of Azadirachta indica. The flavonoids and terpenoids present in the extract act as both reducing and capping agent. Microbes (Escherichia coli and Gram-positive bacteria) were isolated from borewell water using selective media. The silver nanoparticles showed antimicrobial activities against Gram-positive bacteria and E. coli. However the silver nanoparticles were more effective against E. coli as compared to Gram-positive bacteria. Various techniques were used to characterize synthesized silver nanoparticles such as DLS and UVvisible spectrophotometer. The absorbance peak was in the range of 420-450 nm, that varied depending upon the variation in the concentration of neem extract. This is a very rapid and cost-effective method for generation of silver nanoparticle at room temperature, however, its exact dose in water purification has to be determined.

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Section: Discussionmentioning

confidence: 99%

Green synthesis of silver nanoparticles using Azadirachta indica leaf extract and its antimicrobial study

et al. 2017

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“…For instance, nanoparticles can be prepared using ligands or compounds that possess themselves an antibacterial activity (chitosan [72], surfactants [73], etc.). The antibacterial effect is then at least partly attributable to this extra component.…”

Section: Role Of the Nanoparticulate Objectsmentioning

confidence: 99%

Antibacterial activity of silver nanoparticles: A surface science insight

2015

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Summary Silver nanoparticles constitute a very promising approach for the development of new antimicrobial systems. Nanoparticulate objects can bring significant improvements in the antibacterial activity of this element, through specific effect such as an adsorption at bacterial surfaces. However, the mechanism of action is essentially driven by the oxidative dissolution of the nanoparticles, as indicated by recent direct observations. The role of Ag + release in the action mechanism was also indirectly observed in numerous studies, and explains the sensitivity of the antimicrobial activity to the presence of some chemical species, notably halides and sulfides which form insoluble salts with Ag + . As such, surface properties of Ag nanoparticles have a crucial impact on their potency, as they influence both physical (aggregation, affinity for bacterial membrane, etc.) and chemical (dissolution, passivation, etc.) phenomena. Here, we review the main parameters that will affect the surface state of Ag NPs and their influence on antimicrobial efficacy. We also provide an analysis of several works on Ag NPs activity, observed through the scope of an oxidative Ag + release.

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“…They adsorbed onto Ag-NPs surface stabilizing the nanoparticles and prevent their aggregation. Biosurfactants of biological origin have a lot of positive properties: most of them are rapidly degraded, they are not toxic, their activity is in a wide range of temperature, salinity and acidity [14,15,[17][18][19][20][21].…”

Section: Biosynthesis and Characterization Of Silver Nanoparticlesmentioning

confidence: 99%

TTC- Based Test as an Efficient Method to Determine Antibiofilm Activity of Silver Nanoparticles

2017

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Abstract. Among metal nanoparticles, silver nanoparticles are a widely used in various life sectors such as in biomedical applications, air and water purification, food production, cosmetics, garments and in various household products. There are several methods for production of silver nanoparticles. Generally, silver nanoparticles can be prepared by chemical methods such as chemical reduction and electrochemical techniques, physical methods, and biological methods such as the use of microorganisms. The biological route of synthesis provides a great diversity in choice for its raw materials such as bacteria, algae, fungi and plants. The aim of the study was to evaluate the tetrazolium/formazan test as a method to determine antibiofilm activity of biological synthetized silver nanoparticles. In this study Bacillus subtilis grown on brewery effluent and produced biosurfactant was used for silver nanoparticles (Ag-NPs) synthesis. The culture supernatants were used in synthesis of Ag-NPs. The formation of nanoparticles accompanied by colour changes of the used reaction system was confirmed by UV-vis spectroscopy. The bacteria isolated from the biofilm of water supply system were used in the evaluation of the antibiofilm activity of biologically synthetized Ag-NPs. To compare the results the commonly used crystal violet assay (CV) for biofilm analysis was applied.

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Effect of Surfactants and Polymers on Stability and Antibacterial Activity of Silver Nanoparticles (NPs)

Cited by 881 publications

References 34 publications

Green synthesis of silver nanoparticles using Azadirachta indica leaf extract and its antimicrobial study

Green synthesis of silver nanoparticles using Azadirachta indica leaf extract and its antimicrobial study

Antibacterial activity of silver nanoparticles: A surface science insight

TTC- Based Test as an Efficient Method to Determine Antibiofilm Activity of Silver Nanoparticles

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