Eucalyptus bark could help clean water and airFriday 8 May 2026
Researchers have shown the bark can be converted into a highly porous form of carbon that traps pollutants as water or air flows through it. The findings point to a practical way of turning a common forestry by‑product into a useful environmental material using a relatively simple processing method. Turning waste into a filter Porous carbon materials are already widely used in water filters, air purifiers and industrial gas treatment systems. Their effectiveness comes from their structure rather than the source material itself. These materials contain a network of microscopic pores. As air or water passes through, unwanted molecules are captured and held within the tiny spaces. PhD researcher Pallavi Saini, who led much of the experimental work, said the performance of eucalyptus bark was unexpected. “It is usually treated as low‑value waste, but with a simple process we were able to convert it into a highly porous material with strong adsorption performance,” Saini said. “It highlights how overlooked biomass can be transformed into something useful.” In the study, the researchers used a relatively simple, one‑step activation process to produce porous carbon from eucalyptus bark. While similar approaches have been explored using other biomass sources, many porous carbons are still produced through more complex, multi‑stage routes that require additional energy and infrastructure. Why eucalyptus bark? Plant-waste based carbons are being studied worldwide using feedstocks ranging from agricultural residues to forestry and industrial waste. These materials are typically assessed based on availability, sustainability, processing complexity and performance. Dr Deshetti Jampaiah said eucalyptus bark compared favourably on several of these measures, particularly in Australia. “The strength of this approach lies in its simplicity,” Jampaiah said. “We are converting a widely available waste material into a functional carbon with promising performance, without relying on complex processing steps. That makes it highly relevant for real‑world environmental applications.” Australia is home to more than 900 species of eucalypt and related trees. As a next step, the researchers plan to work with Indigenous people and organisations with deep knowledge of eucalyptus species to help identify which species may be best suited for this type of application. More >> Source & image credit: RMIT --(2022)2.jpg) | ||
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