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Accelerator technique used in pioneering biomaterials research led by the University of Sydney.

ANSTO seeks candidates who are passionate about making a contribution to Australian society through supporting nuclear science and technology.

The Titan Krios cryo-electron microscope reveals the inner workings of life at the cellular level.

3D models of multilayered structures on engineering scale from nanoscale damage profiles.

Researchers use Kitaev theoretical model to explain unusual phenomenon in two-dimensional material.

An international collaboration led by The University of Sydney and supported by ANSTO has developed an advanced, innovative artificial intelligence application that could be used to help examine tissue samples and identify signs of disease/

ANSTO: Australia’s knowledge centre for nuclear science and engineering.

Primary students across Australia were invited to create a public awareness poster for a threatened shorebird found in Australia for our 2020 Shorebirds Competition. In response to COVID-19, and the changes to children’s learning environments, we opened the competition early and also included categories for individual children to enter, as well as school children.

Using the theory of compressed sensing technology, a team of physicists and scientists invented and developed the CORIS360® platform imaging technology. Compressed sensing imaging can generate an image with far fewer samples compared with traditional imaging techniques.

Book a date with the Discovery Centre for your class.

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.

Funding awarded for research on an additive manufacturing technique for use on rail infrastructure.

ANSTO has a variety of games and apps to educate students on how radiation works, nuclear medicine, the periodic table, and atom building.

The Macromolecular Crystallography beamlines at the Australian Synchrotron (MX1 and MX2) are general purpose crystallography instruments for determining chemical and biological structures.