Rapid Photocatalytic Bacteria Disinfection of Drinking Water

Rapid Photocatalytic Bacteria Disinfection of Drinking Water

Author: Angewandte Chemie

Efficient Disinfection of Water

Water contaminated with bacteria is a large threat to global health. A Chinese research team has described a simple method of disinfection based on tiny biocompatible assemblies of atoms, known as quantum dots, made of silver sulfide with caps made of a silver-binding peptide. When irradiated with near-infrared light, they kill bacteria in water with high efficiency through synergistic effects.


Traditional Water Disinfection Methods

Particularly in developing nations and remote regions of the world, it can be very difficult to access clean drinking water. Pathogenic bacteria, such as Escherichia coli, enterococci, salmonella, or cholera pathogens, can cause serious infections. A single swallow can sometimes have fatal consequences.

Traditional disinfection methods widely implemented in recent decades, such as UV light, chlorination, and ozone, have disadvantages, including high costs, poor efficiency, poor biocompatibility, and carcinogenic by-products. An alternative with rapid and effective antibacterial properties is urgently needed.


Silver Sulfide Quantum Dots

Wei Wei, Jing Zhao, Nanjing University, and Nanchuang (Jiangsu) Institute of Chemistry and Health, China, and colleagues have developed a method that is based on quantum dots made of silver sulfide (Ag2S). Quantum dots are nanoscopic structures made of about one-to-ten thousand atoms that are “confined” in space. Their quantum-mechanical properties correspond more to those of molecules than macroscopic solids, which can lead to interesting opto-electronic effects.

Silver sulfide quantum dots are already used in photodynamic and photothermic therapy, including for the treatment of certain tumors and skin diseases. They can be used as contrast agents and as fluorescence thermometers. So far, they have not been used much for disinfecting water, partly because previous methods for preparing them have been complicated and expensive.

The researchers have developed a simple, inexpensive production method, in which the quantum dots are enclosed by caps made from a specially developed biomimetic silver-binding peptide (AgBP2).



When irradiated with near-infrared (NIR) light, the AgBP2-Ag2S quantum dots effectively kill bacteria in water. They are chemically stable, photostable, and biocompatible. Their strong activity is due to a synergistic combination of two effects. First, irradiation causes them to produce highly reactive oxygen species, and second, they cause strong local heating. Neither of the two effects alone leads to success, but their synergistic combination effectively destroys bacterial cell membranes.



Under 808 nm NIR laser irradiation, AgBP2-Ag2S QDs serves as a photothermal agent to realize NIR photothermal conversion and as a photocatalyst to generate reactive oxygen species (ROS). They are able to kill over 99 % of E. coli bacteria within 25 minutes of NIR irradiation—a highly promising strategy for antibacterial disinfection of water.



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