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World Congress on Regulations of Nanotechnology

Chicago, USA

Ibrahim Ismail

Ibrahim Ismail

Zewail City for Science and Technology, Egypt

Title: Synthesis, characterization and biocidal effect of copper nanoparticles

Biography

Biography: Ibrahim Ismail

Abstract

A chemical reduction method was used to produce highly stable and dispersed copper nanoparticles. In this method, copper salt (copper (II) chloride dihydrate; CuCl2.2H2O and copper (II) sulfate pentahydrate; CuSO4.5H2O) were used as precursor. L-ascorbic acid was used as reducing and capping agent. The effect of reaction time and molar ratios of L-ascorbic acid to copper salt on the size of copper nanoparticles were studied. The particle size and morphology of copper nanoparticles were measured by dynamic light scattering (DLS) and transmission electron microscopy (TEM). The results showed that increasing time of reaction and increasing the molar ratio of L-ascorbic acid to copper salt decrease the size of copper nanoparticles. The size of copper nanoparticles was found less than 10 nm and spherical in shape. The copper nanoparticles colloidal solution was kept in ambient conditions for more than three months but no change was observed. The use of L-ascorbic acid has the advantage of non-toxic, low cost and environmental friendly production process. Antimicrobial tests of copper nanoparticles were carried out on different types of bacteria (Gram-negative bacteria and Gram-positive bacteria) and fungi. The prepared aqueous solutions of copper nanoparticles were diluted to different concentrations and 10 μl of each dilution was spotted on the overlay of each bacterial culture by impregnating the as-synthesized copper nanoparticles using micropipette on paper discs. The minimum inhibitory concentration (MIC) is defined as the lowest concentration of each sample at which visible inhibition of bacterial growth was induced and zone of inhibition was measured after 24 h of incubation. After completion of the MIC assay, the minimum bactericidal concentration (MBC) was also assessed. The results showed that the copper nanoparticles exhibited antimicrobial activity and that the lower the particles, the higher the biocidal effect on both bacteria and fungi.