| dc.description.abstract | Since green synthesis is simple, inexpensive, less time-consuming and eco-friendly, it is
highly accepted over chemical synthesis in the pharmaceutical and cosmetic industries.
This involves nontoxic secondary metabolites of plants, which could function as reducing
and capping agents during nanoparticle synthesis. This study utilized a petal extract of
Nelumbo nucifera (Lotus) to reduce silver nitrate solution into silver nanoparticles (AgNPs).
Then, the anti- tyrosinase activity of AgNPs was tested. Fourier transform infrared ( FTIR)
spectroscopy and ultraviolet-visible (UV-Vis) spectroscopic analysis con rmed the presence
of secondary metabolites in petal extract. The AgNPs were characterized using UVVis,
FTIR and Scanning Electron Microscopic (SEM) techniques. The UV-Vis spectrum
of AgNPs showed the characterized excitation of maximum surface plasmon resonance
band at 435 nm. FTIR spectroscopy analysis established that the petal extract served as
a reducing agent and acted as a capping agent to stabilize the NPs. SEM revealed the
formation of well- dispersed and spherical shape NPs ( 80 nm). The tyrosinase inhibitory
activity of AgNPs was evaluated spectrophotometrically using mushroom tyrosinase, Ltyrosine,
potassium phosphate bu er and arbutin as a positive control in the 96-well
microplate. The percentage inhibition of tyrosinase was calculated. The percentage
inhibition of AgNPs (0.1 mg/ml) and arbutin (0.1 mg/ml) were found to be 56.38%
and 65.27% respectively. When compared with arbutin signi cant (p<0.05) percentage
inhibition of tyrosinase enzyme was observed from green synthesized AgNPs. The study
concluded that green synthesized AgNPs could be developed into a potential candidate in
the pharmaceutical and cosmetic industries. Further, more studies are needed to elaborate
quality, safe and efficacious utilization of green synthesized AgNPs. | en_US |
