Oxidative DNA damage caused by pulsed discharge with cavitation on the bactericidal function

Abstract: Plasma-based techniques are expected to have practical use for wastewater purification with a potential for killing contaminated microorganisms and degrading recalcitrant materials. In the present study, we analysed oxidative DNA damage in bacterial cells treated by the plasma to unveil its mechanisms in the bactericidal process. Escherichia coli cell suspension was exposed to the plasma induced by applying an alternating-current voltage of about 1 kV with bubbling formed by water-cavitation, termed pulsed dis… Show more

“…In the previous study [13], cavitation bubbles were generated by the nozzle, and the H 2 O 2 concentration was 3.5 μg l −1 and the energy yield of H 2 O 2 was 8.5 mg kWh −1 when the product was discharged for 96 s with a treated water volume of 2000 ml, a flow rate of 20 l min −1 , and a discharge power of about 30 W. The energy yield was greatly improved up to about 700 times higher on this paper in contrast to previous study. Since the power supply, reactor and electrode structures are different, it is not possible to make a strict comparison, but it is presumed that the main factor for this yield is due to the improvement of the electrode structure.…”

“…In our research group, we proposed underwater plasma for water purification by using underwater cavitation, and we have then reported the results of the research [11][12][13][14]. In this method, since a nozzle is used to generate underwater cavitation, both the pressure loss in the pipeline and the power consumption of the water pump are high.…”

Plasma generation in water using a compact electrode with a semi-covered structure

“…In the previous study [13], cavitation bubbles were generated by the nozzle, and the H 2 O 2 concentration was 3.5 μg l −1 and the energy yield of H 2 O 2 was 8.5 mg kWh −1 when the product was discharged for 96 s with a treated water volume of 2000 ml, a flow rate of 20 l min −1 , and a discharge power of about 30 W. The energy yield was greatly improved up to about 700 times higher on this paper in contrast to previous study. Since the power supply, reactor and electrode structures are different, it is not possible to make a strict comparison, but it is presumed that the main factor for this yield is due to the improvement of the electrode structure.…”

“…In our research group, we proposed underwater plasma for water purification by using underwater cavitation, and we have then reported the results of the research [11][12][13][14]. In this method, since a nozzle is used to generate underwater cavitation, both the pressure loss in the pipeline and the power consumption of the water pump are high.…”

Plasma generation in water using a compact electrode with a semi-covered structure

Insights into the antibacterial activity and antibacterial mechanism of silver modified fullerene towards Staphylococcus aureus by multiple spectrometric examinations

Fundamental characteristics of discharge plasma generated in a water cavitation field