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Combining scientific expertise with more than $1.3 billion in unique operational assets to provide optimal radioactive waste solutions.

Australia part of global renaissance in fusion power research symbolised by ITER experiment

Kowari, a residual stress diffractometer, can be used for ‘strain scanning’ of large engineering components as large as 1000 kilograms.

Researchers from UNSW have found an extraordinary material that does expand or contract over an extremely wide temperature range and may be one of the most stable materials known.

Australian clean energy technology company, entX Limited is taking advantage of ANSTO’s unique capacity to generate tailored radioisotope products in the OPAL multi-purpose nuclear reactor to advance a series of innovative projects.

ANSTO is interested finding students to collaborate on Generation IV reactor systems.

Thales Australia, a key supplier to the Australian Defence Forces, provided an industrial challenge to National Graduate Innovation Forum participants relating to the production of piezoelectric ceramic components used in naval sonar arrays and systems.

Researchers developing new materials and devices that can withstand the harsh radiation environment in space are using the unique ANSTO’s capability to simulate the effects of high-energy ion irradiation on the properties and performance of these materials and devices.

Collaboration investigates a promising new nanoparticle for potential use in combination with other therapies for brain cancer

Ion beam analysis techniques can be used for trace element analysis and the surface characterisation of diverse materials.