Researchers from the University of Waterloo have discovered that a special form of charcoal is highly effective at absorbing toxic chromium and transforming it into its safer form.
Chromium is a heavy metal that exists in two forms. One form, chromium(III), is a safe micronutrient that our body needs. The other, chromium(VI), is a dangerous carcinogen linked to ovarian, lung, and liver cancer, and reproductive problems. The dangerous form is usually created during industrial processes such as leather tanning, stainless steel production, and mining, but it can also occur naturally in the presence of manganese minerals.
Biochar, a form of charcoal produced by heating agricultural waste without oxygen, is being studied as a potential tool for cleaning up chromium pollution at industrial sites, using the natural filtering ability of organic carbon.
Filip Budimir, a Ph.D. candidate in Earth and environmental sciences at the University of Waterloo, wanted to know what happens when water contaminated with chromium(VI) is mixed with an oak-based biochar. His research is published in the journal Chemosphere.
Organic material can convert toxic heavy metal to harmless form. Credit: Canadian Light Source
Using the Canadian Light Source at the University of Saskatchewan, Budimir probed the biochar to see where the chromium was being deposited on the grains, and which version of the metal was there. He found that, while the solution initially contained only Cr(VI), after sitting for 120 hours (5 days), most of the chromium (~85%) had become Cr(III). So not only was the biochar absorbing the toxic chromium, it was also converting it to its safer form.
“We were happy to see that the majority of what we were finding on the biochar grains was chromium-3 and not chromium-6,” says Budimir.
Microscopic image of a biochar grain after reaction with Cr(VI) for 120 h (A) and μ-XRF map of the same grain showing Cr intensity (B). Arrows indicate areas where μ-XANES data were collected. Cr K-edge X-ray absorption near-edge structure (XANES) spectra collected for various hot spots from the μ-XRF map along with two reference spectra (K2Cr2O7 and Cr2O3) (C). Credit: Chemosphere (2024). DOI: 10.1016/j.chemosphere.2024.143880
The researcher also found that the chromium isotopes changed (or fractionated) during removal of Cr(VI) from the water; the lighter chromium isotopes were removed faster and converted from Cr(VI) to Cr(III) more readily than the heavier isotopes. This could potentially be used as a tool to monitor groundwater remediation efforts using biochar, he says.
“Things are happening underground, but we’re not sure what,” says Budimir. “Testing the isotopes can give us an idea of what is happening and if the process is working.”
More information:
Filip Budimir et al, Chromium isotope fractionation during the removal of hexavalent chromium by oak-based biochar, Chemosphere (2024). DOI: 10.1016/j.chemosphere.2024.143880
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Organic material can convert toxic heavy metal to harmless form (2025, January 31)
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