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Highly accurate non-invasive nuclear technique helps validate theoretical model for optimised laser material deposition in additive manufacturing.

Advances in radon measurement technology by ANSTO researchers over the past decade have enabled the improved characterisation of the composition of pristine air masses that reach Antarctica.

Small modular reactors can be built using Generation IV reactor technologies, that old the promise of considerably higher efficiency for decarbonised energy production and industrial heat co-generation.

New class of conducting materials found for potential use in next generation fuel cells and other applications.

This joint initiative at ANSTO has developed a new capability: solid surface radiolabelling to evaluate Auger emitting sources for next-generation targeted therapy.

Are you a school student who likes a creative challenge? Enter our new Incredible Insects Competition during the month of July 2021! You could win yourself a prize pack worth over $100! School students from all States/ Territories of Australia are invited to enter.

With all excavation completed and rock removed from the underground site, the physics lab will now be built within the caverns of the Stawell Mines site.

Two ANSTO physicist explain the three-body problem as featured in science fiction series of the same name

Successful synthesis of nano-material that improves catalytic converter efficiency.

Early research at ANSTO has contributed to development of innovative submicron particle encapsulation technology.

The mining industry is set to benefit from a new Australian capability that uses a nuclear scanning technique to detect the presence of precious metals and strategic minerals in a core sample.

Detailed data on ANSTO electricity use and CO2 emissions for FY2022 - FY2023