Abstract
Syzygium aromaticum (Clove), Cinnamonum tamala (Bay leaf), Cinnamonum cassia (Cinnamon bark) are well known plants in India. All three plants are a rich source of secondary metabolites that find use as antimicrobial agent, in pharmaceutical industry, cosmetics, food and agriculture industry. In regards of antimicrobial activity, green silver nanoparticles were synthesised by using these plants aqueous extract (25%w/v). For silver nanoparticle synthesis different concentration of plant extract were mixed with AgNO3 solution and exposed to sunlight and estimated by the UV-Visible spectrophotometer. Powdered silver nanoparticles (AgNPs) were dissolved in autoclaved distilled water at different concentration (20mg/ml, 10mg/ml, 5mg/ml, and 2.5mg/ml) and performed antimicrobial activity through agar well diffusion method. Silver nanoparticles of all three plants were showed antimicrobial activity against human bacterial pathogen Escherichia coli and Bacillus subtilis. The inhibition zone increased with increasing concentration of all three plants (S. aromaticum, C. tamala and C. cassia) AgNPs, so maximum inhibition zone was observed at 20mg/ml for both pathogens. At higher concentration, the inhibition zone of E. coli were 2.25 ±0.05, 1.7 ±0.1 and 1.85 ±0.05 cm in presence of S. aromaticum, C. tamala and C. cassia AgNPs respectively. Although, The presence of phytochemical terpenoids, tannin and glycosides are was confirmed by the chemical reagent test. In modern era, the nanoparticle based medicine is explored in pharmaceutical and medical science. Therefore this green synthesis of silver nanoparticle can be explored in pharmaceutical science.
Highlights
Nowadays nanotechnology is the most valuable field in modern science
Silver nanoparticles have caught the attention of researchers due to their special characteristics like antimicrobial activity, catalytic activity, chemical stability and electrical conductivity [3]
Existence of secondary metabolites in any plant samples are mainly used for medicinal activities
Summary
Nowadays nanotechnology is the most valuable field in modern science. It has great significance to create different applications in various fields of science. Metals due to various reductase enzymes, which leads to reduction of metal salts into metal nanoparticles [9]. Plant derived nanoparticle synthesis are explored very well because of high demand for nanoparticles in the biomedical and environmental areas. Many medicinal and non-medicinal plants leaves, fruits, stems, roots, and their extracts, have been used for the synthesis of metal nanoparticles [10]. The exact mechanism for plant-mediated synthetic of nanoparticles is still not yet clear but proposed proteins, amino acids, organic acid, vitamins, and secondary metabolites have significant roles in metal salt reduction and nanoparticle synthesis [11]
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