Efficient photocatalytic inactivation of E. coli by Mn-CdS/ZnCuInSe/CuInS quantum dots-sensitized TiO nanowires.

A novel visible light-driven photocatalyst (represented as Mn-CdS/ZCISe/CIS/TiO) for the passivation of E. coli was prepared with TiO nanowires as support and using CuInS (CIS) and ZnCuInSe (ZCISe) quantum dots (QDs), as well as Mn-doped CdS (Mn-CdS) nanoparticles (NPs) as sensitizers. The use of CIS and ZCISe QDs and Mn-CdS NPs extends the light harvest region to visible light. The photoelectric conversion efficiency was consequently improved, with a photocurrent density of 12.5 mA cm, about 60 times that of pure TiO nanowires. The germicidal efficiency of the photocatalyst was assessed by passivation of E. coli, 96% bacteria in 50 ml 10 colony forming units (CFU) ml solution were killed within 50 min. Besides the high efficiency, the composite has good stability and satisfactory recycling performance. The antibiotic mechanism was also performed by using photoluminescence and a scavenging agent of different active matter, revealing that the photo-generated holes play a major role in the sterilization process.