Synthesis of gold and silver nanoparticles by use of arabinoglucan from Lallemantia royleana

Highly stable gold and silver nanoparticles were synthesized by use of an arabinoglucan from Lallemantia royleana seeds without additional use of reducing or stabilizing agents. The mechanism involved the reduction potential of the hemicellulose as verified by cyclic voltammetry. The arabinoglucan used was substantially free from ferulic acid and phenolic content, suggesting the inherent reducing potential of arabinoglucan for gold and silver ions. The synthesized nanoparticles exhibited surface plasmon resonance maxima at 515 nm (gold) and 397 nm (silver) corresponding to sizes of 10 nm and 8 nm, respectively. The zeta potential values were -24.1 mV (gold) and -22.3 mV (silver). The silver nanoparticles showed potential for application in surface-enhanced Raman spectroscopy. Gold nanoparticles were found to be non-toxic, whereas silver nanoparticles exhibited dose-dependent biological activities and found to be cytotoxic against brine shrimps and HeLa cell lines and the tumours caused by A. tumefaciens.

Automated summary

Gold and silver nanoparticles were successfully synthesized using arabinoglucan from Lallemantia royleana seeds, showing high stability without the need for additional reducing or stabilizing agents. The nanoparticles exhibited excellent optical properties, with potential applications in surface-enhanced Raman spectroscopy. Silver nanoparticles demonstrated dose-dependent biological activities, including cytotoxicity against brine shrimps, HeLa cell lines, and tumors caused by A. tumefaciens.