Excellent antibacterial activities in the dark of ZnO nanoflakes with Oxygen Vacancies on the exposed {20} facets

The rapidly evolving threat of antibiotic resistance around the globe urges materials scientists to find alternative solutions to kill bacteria in the dark when illumination for photocatalysts based antibacterials is not available. Here we show that {21 @#x0305;1 @#x0305;0}-ZnO exhibits excellent antibacterial activities in the dark against both E. coli and S.aureus, which is attributed to the reactive oxygen species (ROS) generated in the dark. Interestingly, different from the previously reported mechanism involved single ionized oxygen vacancy-mediated〖•O〗_2^-, the oxygen vacancies on the exposed {21 @#x0305;1 @#x0305;0} facets are able to generate both 〖•O〗_2^- by single electron transfer and O_2^(2-) by two-electron transfer. This work highlights the oxygen activation on oxygen vacancies for the generation of ROS in the dark and may enlighten the rational design of novel antibacterials in the dark via surface engineering.