Abstract
In this study, metal oxide (MO) nanoparticles were synthesized using a microwave and chemical methods and characterized using spectroscopic and microscopic techniques such as scanning electron microscopy (SEM), UV–vis spectroscopy, FTIR spectroscopy and Zeta potential analysis. The sensitivity (growth of inhibition) and catalytic degradation study of the MO nanoparticles with malaria biomarker (β-Hematin) and cultured Salmonella typhi was established. Both the chemical and microwave synthesized metal oxide nanoparticles exhibited effective potential to degrade the malaria biomarker at different degree and to its less active by-product. However, in most cases, microwave synthesized nanoparticles performed better than their chemically synthesized counterparts. The synthesized nanoparticles show high antibacterial activity towards clinical pathogens and S. typhi and therefore can be used for sensor development for monitoring these microorganisms in biological fluids such as blood, and urine samples.
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