Researchers, led by the University of Toronto Ted Sargent group, used a new technique exclusive to the Canadian Light Source (CSL) in Saskatoon to pinpoint conditions that would convert CO2 most efficiently into ethylene.

Ethylene is used to make polyethylene, the most common plastic used with an annual global production of 80 million tonnes.

The results of the study could help divert CO2 from the atmosphere while reducing the need for fossil fuels to make products.

“The future will be filled with technologies that make value out of waste,” said U of T PhD student Phil De Luna, who was the lead researcher on the project.

“It’s exciting because we are working towards developing new and sustainable ways to meet the energy demands of the future.”

The team was able to design a catalyst to pinpoint the ideal conditions to maximise ethylene production while at the same time minimising methane output to nearly nothing. The team used a unique piece of equipment developed at CLS to make the discovery.

Tom Regier, a senior scientist at the facility, made it possible for researchers to study both the shape and the chemical environment of their research in real time.

After many failed attempts, they were near the end of their allotted time at CLS when the key results came in.

“We were about to give up, but when the results came in, they were so good we had to sit down. Really beautiful results,” Quintero-Bermudez said.

The results of the study were published Monday in the brand-new Nature family journal Nature Catalysis.

CLS is one of the largest science projects in Canadian history. Over 1,000 scientists from around the world travel to Saskatoon annually to conduct research in a number of different fields including agriculture, health and the environment.