Recovering in-demand metals for new electronics

Researchers from Toronto Metropolitan University find industrial-strength adsorbents soak up lanthanum from contaminated water

By Rowan Hollinger

Nearly all technology today—from cellphones to computers to MRI scanners—contains rare earth elements (REEs). The global market for REEs is predicted to reach $6.2 billion (USD) this year and $16.1 billion (USD) by 2034.

High concentrations of one particular REE -- lanthanum -- are often in find in mine tailings. Runoff from this waste can make its way into nearby bodies of water where it poses a risk to human health and the environment. As a result, researchers are on the hunt for ways to recover the material.

Video: Recovering in-demand metals for new electronics

Michael Chan, working under the supervision of Dr. Huu Doan in the Department of Chemical Engineering at Toronto Metropolitan University (TMU), recently discovered that industrial-strength chemical adsorbents can be used to “soak up” lanthanum from that mine waste.

“These ‘fancy sponges’ are about the size of a grain of salt,” says Chan, who is completing his Masters degree at TMU. Working in a lab, Chan and his colleagues found that the metal ions present in a sample of contaminated water trade places with the hydrogen ions present on the surface of adsorbent.

When they filtered the adsorbent out of the water, they were left with cleaner water and recovered lanthanum that could be reformed and reused in new electronics.

The team used a scanning electron microscope at TMU to better understand the ion exchange process, then used the Canadian Light Source at the University of Saskatchewan to get even more detailed images and to confirm their findings.

“The exciting part about these findings is that this is something that we can do now, today,” says Chan. “We can use what we have. We can really give it a shot and apply it to real-life situations and industry.”

Chan and his team collaborated with Dr. Trong Dang-Vu from SNF Canada, a company specializing in water treatment solutions. “They were able to guide us in terms of what industry is looking for,” says Chan. “They also provided us with tailings samples from mines, so in further research we’ll see if we can use those samples and see just how effective this approach really is.”

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Chan, Michael, Huu Doan, and Trong Dang-Vu. "An Investigation of Lanthanum Recovery from an Aqueous Solution by Adsorption (Ion Exchange)." Inorganics 12, no. 9 (2024): 255. https://doi.org/10.3390/inorganics12090255

Photos: Canadian Light Source | BMIT Beamline | Researcher

To arrange an interview with Michael Chan, contact:

Greg Basky
Communications Coordinator
Canadian Light Source
306-370-9446
greg.basky@lightsource.ca