Using Nanoparticles as Antibacterial Agents by Taking Advantage of Plasmonic Thermal Effects

Roqayah Qasim Hassoon Baqir; Huda salam mazlum Mahasr; Tabark ayyed hashim abednooh; Aya Alaa abd alwahed Mahdi; Saja sadoon hussein dalaf

Authors

Roqayah Qasim Hassoon Baqir University of Babylon College of Science for Girls Department of Physical Laser
Huda salam mazlum Mahasr University of Babylon College of Science for Girls Department of Physical Laser
Tabark ayyed hashim abednooh University of Babylon College of Science for Girls Department of Physical Laser
Aya Alaa abd alwahed Mahdi Technology University College of Applied Sciences Laser
Saja sadoon hussein dalaf Technology University College of Applied Sciences Laser Technology Branch

Keywords:

Nanoparticles, Gold, Silver

Abstract

The study focused to synthesize and evaluate the thermo-plasmonic properties based on the core/multi-shell nanoparticles prepared by laser ablation in liquids with nanosecond laser pulses at 1064 nm, to introduce a new type of hybrid nanostructures usable in biomedicine and optical photonics applications. For these hybrid nanostructures, Gold and Silver as a partner of Silicon were used in thermo-plasmonic part, the hybrid multishell nanostructures consist of gold-silver and silver-gold sandwich with silicon shell in between.The optical absorption was measured using aUV–Vis spectrophotometer for the samples. In addition, the thermo-plasmonic properties are studied by monitoring the local temperature increase of the samples experimentally by infrared camera, when the samples are illuminated by lasers of different wavelengths (532, 405 nm). As well as the core/multi-shell NPs were tested to inhibit the activity of the E-coli bacteria under laser radiation.In addition, the results show that not only an extreme tunability in the surface plasmon resonances can be obtained, but also considerably enhanced photo-thermal effects in terms of temperature rise, that depends on the laser effect