Biosynthesis of gold nanoparticles using marine bacteria and Box-Behnken design optimization

Biosynthesis of gold nanoparticles using marine bacteria and Box-Behnken design optimization

Gold nanoparticles are exciting materials because of their potential applications in optics, electronics, biomedical, and pharmaceutical fields. In recent years, environmentally friendly, low-cost biosynthesis methods with bio-applicable features have continued to be developed for the synthesis of g...

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Bibliographic Details
Published in:Particulate science and technology Vol. 37; no. 1; pp. 31 - 38
Main Authors: Camas, Mustafa, Celik, Fatih, Sazak Camas, Anil, Ozalp, Hasan Baris
Format: Journal Article
Language:English
Published: Philadelphia Taylor & Francis 02-01-2019
Taylor & Francis Ltd
Subjects:
Bacteria
Biomedical materials
Biosynthesis
Box-Behnken design
Design of experiments
Design optimization
Gold
gold nanoparticles
Independent variables
marine actinobacteria
Marine environment
Nanoparticles
Optical density
optimization
Transmission electron microscopy
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Summary:Gold nanoparticles are exciting materials because of their potential applications in optics, electronics, biomedical, and pharmaceutical fields. In recent years, environmentally friendly, low-cost biosynthesis methods with bio-applicable features have continued to be developed for the synthesis of gold nanoparticles. In the present study, an actinobacterial strain was isolated from the Petrosia ficiformis (Poiret 1798) sponge, which was collected from a marine environment, and the gold nanoparticle synthesis was performed for the first time from the bacteria type belonging to the Citricoccus genus. The synthesis conditions were optimized using the Box-Behnken experimental design, with a statistical method that included three independent variables (temperature, time, and mixture ratio) to affect the synthesis at three levels (+1, 0, and −1). Accordingly, the conditions proposed for the biosynthesis of gold nanoparticles at the maximum optical density values that are specific for the Citricoccus sp. K1D109 strain were estimated as 35°C temperature, 24 h, and 1/5 mixture ratio (cell-free extract/HAuCl 4  · 3H 2 O). When recommended conditions were applied, it was determined that the maximum absorbance of the synthesized gold nanoparticles is 1.258 at 545 nm, and their sizes are in the range of 25-65 nm, according to transmission electron microscopy (TEM) data.
ISSN:0272-6351
1548-0046
DOI:10.1080/02726351.2017.1287794