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ANSTO provides a range of capabilities using neutrons, X-rays and infrared radiation to study the solids, liquids and gases that might be found in materials in our solar system and beyond.

Study helps make carbon dating a more accurate chronological tool.

New material shows enhanced conductivity for solid oxide fuel cells used in satellites, spacecraft, transport vehicles and as power source

ANSTO has played a formative role and continues to make important contributions using nuclear and isotopic techniques to understand past climates and patterns of change, maintain water resource sustainability and provide insights into the impact of contaminate in the environment.

Research demonstrates the existence of hexagonal planar geometry in a transition metal complex with great potential application across multiple disciplines.

The need for a smaller, more transportable version of ANSTO’s 1500-litre atmospheric radon-222 monitor, and with a calibration traceable to the International System of Units, prompted the team to develop a 200-litre radon monitor that would meet those needs.

Favourable conceptual design review may lead to expanded role for Australia on ITER diagnostics.

Phenomenon predicted by Nobel Prize recipient

Radioisotopes are widely used in medicine, industry, and scientific research. New applications for radioisotopes are constantly being developed.

New screening method developed to confirm if deuteration improves metabolic stability.

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.

Research highlights how biodistribution of a toxic substance essential to understand all exposure risks.

A new study has shown that, rather than being discarded, plastics can be transformed into valuable carbon nanomaterials that help solve both energy and environmental challenges.

Snapshots of an unprecedented double element-hydrogen bond activation at a transition metal centre.