Nanoparticle sensor can detect spoiled milk before opening

(Nanowerk News) Expiration dates on milk could eventually become a thing of the past with new sensor technology from Washington State University scientists.
Researchers from the Department of Biological Systems Engineering (BSE), the WSU/UI School of Food Science and other departments have developed a sensor that can 'smell' if milk is still good or has gone bad.
The sensor consists of chemically coated nanoparticles that react to the gas produced by milk and the bacterial growth that indicates spoilage, according to Shyam Sablani, professor in BSE. The sensor doesn't touch the milk directly.
"If it's going bad, most food produces a volatile compound that doesn't smell good," Sablani said. "That comes from bacterial growth in the food, most of the time. But you can't smell that until you open the container."
The sensor detects these volatile gasses and changes color. The breakthrough is in the early stages, but Sablani and his colleagues showed in a paper published in the journal Food Control ("Colorimetric detection of volatile organic compounds for shelf-life monitoring of milk") that their chemical reaction works in a controlled lab environment.
Coated nanoparticles under a microscope
Coated nanoparticles under a microscope before they react with the spoiled milk gasses (top), with the same nanoparticles after 'smelling' the spoiled milk below. (Image: WSU)
The next step for the team is developing a way to visually show how long a product has before it spoils. Currently the sensor only shows if milk is ok or spoiled.
Though still early, Sablani envisions working with the food industry to integrate his sensor into a milk bottle's plastic cap so consumers can easily see how much longer the product will stay fresh.
One problem with current expiration dates is they are based on best-case scenarios.
"The expiration date on cold or frozen products is only accurate if it has been stored at the correct temperature the entire time," Sablani said.
Temperature abuse, or time a product has spent above refrigerator temperature, is very common, he said. And it can happen during shipment, or if a consumer gets delayed on the way home from the store.
"We'll have to work with the industry to make this work," Sablani said. "But we're confident that we can succeed and help improve food safety and shelf life for consumers."
Source: Washington State University
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