Preventing biological growth – a new generation anti-biofouling coatings. The project aims to improve anti-biofouling technology by developing a ‘smart and green’ coating that requires no toxic biocides and makes use of copper already present in the water. Biofouling is the unwanted attachment and growth on surfaces in water; it causes significant problems on ships and in drinking water systems, and damages infrastructure and capital investment. Biofouling also carries a significant risk of spre ....Preventing biological growth – a new generation anti-biofouling coatings. The project aims to improve anti-biofouling technology by developing a ‘smart and green’ coating that requires no toxic biocides and makes use of copper already present in the water. Biofouling is the unwanted attachment and growth on surfaces in water; it causes significant problems on ships and in drinking water systems, and damages infrastructure and capital investment. Biofouling also carries a significant risk of spreading diseases and environmental damage through the introduction of invasive marine species. Existing coatings release highly toxic substances into the water, causing untold environmental damage. This project offers a single, comprehensive solution for all of the above problems.Read moreRead less
Special Research Initiatives - Grant ID: SR180200051
Funder
Australian Research Council
Funding Amount
$497,638.00
Summary
Integrated platform technologies for remediation of PFAS contaminated water. This project aims to develop low cost platform technologies using our patented high capacity adsorbent material for the removal of perfluoralkyl substances (PFAS) from contaminated water sources in Australia. Our advanced adsorbent material is made from a novel sulfur co-polymer and activated carbon, both of which have high affinity for PFAS, but when combined as a composite provide significant advantages for PFAS remed ....Integrated platform technologies for remediation of PFAS contaminated water. This project aims to develop low cost platform technologies using our patented high capacity adsorbent material for the removal of perfluoralkyl substances (PFAS) from contaminated water sources in Australia. Our advanced adsorbent material is made from a novel sulfur co-polymer and activated carbon, both of which have high affinity for PFAS, but when combined as a composite provide significant advantages for PFAS remediation. This adsorbent will be applied in mobile water treatment plants for remediation of PFAS contaminated aquifers. We will also develop point-of-use water filters for individual, domestic use from the adsorbent, thus empowering individuals and local communities by delivering tangible solutions to Australia’s PFAS crisis.Read moreRead less