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

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

Phenomenon predicted by Nobel Prize recipient

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.

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.

Evidence for existence of a highly exotic and elusive state of matter, known as a magnetic ‘spin nematic’ phase in a natural mineral called linarite.

Scandium 47, a therapeutic radioisotope and potential theranostic, has been produced for the first time at ANSTO. Theranostics are used to both diagnose and treat disease.

Technology for enclosed spaces recently won global COVID19 NASA hackathon

A large international team led by scientists from the Institute for Superconducting and Electronic Materials at the University of Wollongong has verified that the introduction of  novel molecular orbital interactions can improve the structural stability of cathode materials for lithium-ion batteries.

Research collaboration with University of Sydney focuses on a personalised approach to cancer treatment.

The User Advisory Committee (UAC) is an independent group that provides advice to ANSTO Australian Synchrotron (AS) senior management on issues from a user perspective.

Neutron Capture Enhanced Particle Therapy developed at ANSTO.

Commitment to undertake health research.