Antibacterial type-II InP/ZnO quantum dots via multimodal reactive oxygen species
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info:eu-repo/semantics/closedAccessDate
2024Author
Khan, Saad UllahEren, Guncem Ozgun
Atac, Nazli
Onal, Asim
Qureshi, Mohammad Haroon
Cooper, Francis Korshe
Almammadov, Toghru
Kolemen, Safacan
Sahin, Mehmet
Can, Fusun
Nizamoglu, Sedat
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The emergence of multidrug-resistant bacteria as a global health threat has necessitated the exploration of alternative treatments to combat bacterial infections. Among these, photocatalytic nanomaterials such as quantum dots (QDs) have shown great promise and type-I QDs have been investigated thus far. In this study, we introduce type-II InP/ZnO core/shell QDs that are ligand-exchanged with a short-chain inorganic sulfide ion (S2-) for antibacterial activity. Interestingly, InP/ZnO QDs simultaneously generate reactive oxygen species (ROS) including hydroxyl (center dot OH) and superoxide (O-2(center dot-) ) radicals, while only O-2(center dot-) radicals can be released by the type-I sulfide-capped InP/ZnS QDs. The optimized nanostructure achieved effective inhibition of Pseudomonas aeruginosa and Escherichia coli bacteria growth to the level of 99.99% and 70.31% under low-intensity green light illumination of 5 mW.cm(-2). Our findings highlight the importance of type-II QDs as a new avenue for developing effective antibacterial agents against drug-resistant pathogens.