New lasering technology could write tags directly on food

By Michelle Perrett

- Last updated on GMT

The US scientists trialled the new technology on toast
The US scientists trialled the new technology on toast

Related tags: Eating

Scientists in the US have created electromagnetic laser labels that could be added onto food products to show sell-by dates and even highlight organisms such as E.coli.

Houston-based Rice University scientists created the laser-induced graphene​ (LIG), which it has called “edible electronics”.

The lab of chemist James Tour has investigated ways to write graphene patterns onto food and other materials to embed conductive identification tags and sensors into the products themselves. The process turns anything with the proper carbon content into graphene.

“This is not ink,”​ Tour said. “This is taking the material itself and converting it into graphene.”

Food labelling

This means the laser process could be used to label foodstuffs with information such as country of origin and use-by dates. 

Tour said: “Perhaps all food will have a tiny radio-frequency identificationtag that gives you information about where it has been, how long it has been stored, its country and city of origin and the path it took to get to your table.”

He said LIG tags could also be sensors that detected E.coli​ or other microorganisms on food.

“They could light up and give you a signal that you don’t want to eat this,”​ Tour said. “All that could be placed not as a separate tag on the food, but on the food itself.”

Laser beam

The laser used a beam that allowed the researchers to write LIG patterns into cloth, paper, potatoes, coconut shells and cork, as well as toast.

“We also found we could take bread or paper or cloth and add ​[a] fire retardant to them to promote the formation of amorphous carbon,”​ said Rice graduate student Yieu Chyan, co-lead author of the paper.

“Now we’re able to take all these materials and convert them directly in air without requiring a controlled atmosphere box or more complicated methods.”

Related topics: NPD

Related news

Follow us

Featured Events

View more

Products

View more

Webinars