Showing 221 - 240 of 548 results
Pass the salt: can sodium power the 21st century
Atomic structure of new cathode material for sodium ion batteries helps explain long life
Profile
AANSS 2024 - Prizes & Awards
You are invited to submit to the various awards
Role at ANSTO
ANSTO joins international counterparts in peaceful nuclear monitoring
The Australian Nuclear Science and Technology Organisation (ANSTO) has joined a team, lead by the US Department of Energy’s Pacific Northwest National Laboratory (PNNL), to install a high resolution monitoring system at ANSTO’s medical isotope production facility in Lucas Heights, Australia.
Understanding radiation damage at the atomic scale
Role at ANSTO
Joint-funded Postdoctoral Fellow
To D or not to D
New screening method developed to confirm if deuteration improves metabolic stability.
Role at ANSTO
10th birthday of OPAL nuclear research reactor marks a decade of research
Scientific ingenuity + design powers challenge-based innovation
A 'Challenge-Based Innovation' platform at the nandin Innovation Centre is progressing as part of a funding package from the NSW Government and a Memorandum of Understanding with Swinburne University of Technology and Design Factory Melbourne (DFM).
Frederic Sierro joins team
New researcher joins human health team to focus on role of acquired immunity in preventing disease
Total Fluorine Analysis
ANSTO offers accelerator-based particle-induced gamma-ray emission techniques to determine total fluorine concentration in a range of solid materials and rapidly screen for the presence of PFAS (perfluoroalkyl and polyfluoroalkyl substances).
Single session radiation therapy nearing a reality
ANSTO’s Australian Synchrotron has been working on an initiative that could substantially improve radiotherapy treatment for cancer patients.
Powerful new microscope a game changer in battle against disease
The Titan Krios cryo-electron microscope reveals the inner workings of life at the cellular level.
Scientists untangle the challenging complexities of radiocarbon in ice cores
Research elucidates how in situ cosmogenic radiocarbon is produced, retained and lost in the top layer of compacting snow (the ‘firn layer’) and the shallow ice below at an ice accumulation site in Greenland.