Synergistic Effect of Atmospheric-pressure Plasma and TiO(2) Photocatalysis on Inactivation of Escherichia coli Cells in Aqueous Media

Atmospheric-pressure plasma and TiO(2) photocatalysis have been widely investigated separately for the management and reduction of microorganisms in aqueous solutions. In this paper, the two methods were combined in order to achieve a more profound understanding of their interactions in disinfection of water contaminated by Escherichia coli. Under water discharges carried out by microplasma jet arrays can result in a rapid inactivation of E. coli cells. The inactivation efficiency is largely dependent on the feed gases used, the plasma treatment time, and the discharge power. Compared to atmospheric-pressure N(2), He and air microplasma arrays, O(2) microplasma had the highest activity against E. coli cells in aqueous solution, and showed >99.9% bacterial inactivation efficiency within 4 min. Addition of TiO(2) photocatalytic film to the plasma discharge reactor significantly enhanced the inactivation efficiency of the O(2) microplasma system, decreasing the time required to achieve 99.9% killing of E. coli cells to 1 min. This may be attributed to the enhancement of ROS generation due to high catalytic activity and stability of the TiO(2) photocatalyst in the combined plasma-TiO(2) systems. Present work demonstrated the synergistic effect of the two agents, which can be correlated in order to maximize treatment efficiency.