A coating made from titanium dioxide can eliminate foodborne germs like Salmonella and E. coli from surfaces, report researchers.
In the future, a durable coating could help keep food-contact surfaces clean in the food processing industry, including in meat processing plants.
“I knew that other researchers had developed antimicrobial coatings this way, but they hadn’t focused on the coatings’ mechanical resistance or durability,” says Eduardo Torres Dominguez, a doctoral student in chemical engineering at the University of Missouri College of Engineering and College of Agriculture, Food, and Natural Resources.
“In the presence of ultraviolet light, oxygen, and water, the titanium dioxide will activate to kill bacteria from the food contact surfaces on which it is applied. Although the coating is applied as a liquid at the beginning of the process, once it is ready to use it becomes a hard material, like a thin layer of ceramic.”
Heather K. Hunt, an associate professor in the College of Engineering and one of Dominguez’s advisors, guided Dominguez through the process of finding, selecting, synthesizing, and characterizing the titanium dioxide material—a known disinfecting agent that is also food safe.
“We picked this material knowing it would have good antimicrobial behavior, and we strengthened its mechanical stability to withstand normal wear and tear in a typical food processing environment,” says Hunt, whose appointment is in the department of biomedical, biological and chemical engineering. “In addition to normal cleaning procedures, our coating can add an additional layer of prevention to help stop the spread of foodborne contamination.”
Once Dominguez developed the coating, Azlin Mustapha, a professor in the College of Agriculture, Food, and Natural Resources’ Food Science program and Dominguez’s other advisor, helped him optimize its antimicrobial, or disinfecting, properties. Matt Maschmann, an assistant professor in the department of mechanical and aerospace engineering in the College of Engineering, helped Dominguez optimize the material’s durability through hardness testing.
“This will not only be helpful in the raw food processing lines of a processing plant but also ready-to-eat food lines, like deli counters, as well,” says Mustapha. “All surfaces in a food processing plant that come into contact with food are prone to be contaminated by foodborne germs spread by the handling of a contaminated food product.”
The researchers say this is the first step needed toward future testing of the coating’s properties in a real-world environment. Although the team has not tested it for use against the novel coronavirus, Hunt and Mustapha believe their coating has the potential to aid in helping stop the spread of the COVID-19 pandemic in a food processing environment because of its durability and disinfecting qualities.
So far, it has shown to be effective against a strain of E. coli that can be deadly in people, and they’re working to test the coating against other disease-causing bacteria.
The study appears in Materials Chemistry and Physics. Funding for the work came from the Fulbright Program and the Comision Mexico-Estados Unidos para el Intercambio Educativo y Cultural (COMEXUS). The content is solely the responsibility of the authors and does not necessarily represent the official views of the funding agencies.
Source: University of Missouri
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