An AIBN developed magnetic resin will be trialled at wastewater treatment plants to remove harmful PFAS - aka ‘forever chemicals’ - so sewerage can be safely reused as fertiliser.
A new battery material developed at UQ’s Australian Institute for Bioengineering and Nanotechnology (AIBN) could help bring sodium metal batteries (SMBs) closer to commercial use - and closer to powering a renewable future.
Imagine trying to design a drug-delivery gel that safely carries medicine through the body and breaks down after it’s done its job — all without ever setting foot in a lab.
What if batteries were non-toxic, non-flammable, cheap, abundant, and fully recyclable? AIBN and industry partner Energy Storage Industries (ESI) are chasing this very goal thanks to a new industry collaboration supported by the National Industry PhD Program (NIPP).
A newly discovered enzyme is helping scientists perform a rare chemical reaction once considered out of reach, potentially paving the way for a new generation of antibiotics, cancer therapies, and sustainable materials.
A breakthrough in sustainable solar energy is moving closer to market, thanks to a new partnership between The University of Queensland (UQ) and clean technology company Halocell Energy.
Researchers from the University of Queensland’s Australian Institute for Bioengineering and Nanotechnology are calling for global benchmarking to fast-track PFAS research and remediation efforts.
Researchers at The University of Queensland have set a new world record efficiency for lead-free perovskite solar cells, advancing the development of safer, more sustainable solar technologies.
AIBN Emerging Group Leader Dr Run Zhang has secured a grant from the Food and Beverage Accelerator (FaBA) to advance sensor technology that detects antibiotic residues in food, improving food safety.
