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ACS News Service Weekly PressPac: July 11, 2018
The ultimate 'smell test' Device sends rotten food warning to smartphones
When it comes to the “smell test,” the nose isn’t always the best judge of food quality. Now in a study appearing in ACS’ journal Nano Letters, scientists report that they have developed a wireless tagging device that can send signals to smartphones warning consumers and food distributors when meat and other perishables have spoiled. They say this new sensor could improve the detection of rotten food so it is tossed before consumers eat it.
Every year, 48 million people in the U.S. get sick from foodborne illnesses, according to the U.S. Centers for Disease Control and Prevention. Of these, about 125,000 people are hospitalized and 3,000 die. Traditionally, many consumers just smell a food to detect spoilage, but this technique is only as reliable as the sniffer’s nose. At the other end of the spectrum, food inspectors often use bulky, expensive equipment to detect harmful microbes. Scientists are investigating other approaches, including near field communication (NFC) labeling, that are both portable and dependable. NFC devices wirelessly transmit information over short distances — usually less than 4 inches. They are similar to the radio frequency identification products retailers use to track inventory and shipments. Building on this idea, Lijia Pan, Yi Shi, Guihua Yu and colleagues sought to incorporate a sensitive switch into NFC labeling tags to detect food spoilage using a smartphone.
The scientists created a nanostructured, conductive, polymer-based gas sensor that can detect substances called biogenic amines (BAs), which give decomposing meat its bad odor. They embedded these sensors into NFCs placed next to meats. After the meats had been stored for 24 hours at 86 degrees Fahrenheit, the researchers found that the sensors successfully detected significant amounts of BAs. The sensors then switched on the NFCs so they could transmit this information to a nearby smartphone.
The authors acknowledge funding from the National Key Research and Development Program of China, the National Natural Science Foundation of China, the Alfred P. Sloan Fellowship and Camille Dreyfus Teacher-Scholar Award.
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