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Outstanding individuals and teams have been recognised for their outstanding work, innovation, excellence in the 2025 ANSTO Awards. 

Enhancing safety of trailer trucks among research projects

Archive of ANSTO research publications, seminars and short talks.

Dr Mathew Johansen, an environmental scientist at ANSTO, presented in an online IAEA training workshop on Advanced Topics in Radiochemistry Techniques this week.

Publications and resources from the Powder Diffraction beamline.

The User Advisory Committee (UAC) are pleased to present this year's invited speakers.

International collaboration uses Australian Synchrotron on pioneering malaria research.

Highlights of the Energy Materials Project.

Using geoarchaeology to reconstruct the history of an ancient Khmer city.

In space, without the protection of the magnetosphere, the type and dose of radiation is considerably different to what is naturally experienced on earth.

The BRIGHT Nanoprobe beamline provides a unique facility capable of spectroscopic and full-field imaging. NANO will undertake high-resolution elemental mapping and ptychographic coherent diffraction imaging. Elemental mapping and XANES studies (after DCM upgrade) will be possible at sub-100 nm resolution, with structural features able to be studied down to 15 nm using ptychography.

Over the last decades, neutron, photon, and ion beams have been established as an innovative and attractive investigative approach to characterise cultural-heritage materials.

The Minerals consultancy group at ANSTO has expertise in chemical engineering, metallurgy, mineralogy, chemistry, geology, and radiation safety. We can support our client's project by providing process development services, technical review, and research.

Study helps make carbon dating a more accurate chronological tool.

Highlights of the Magnetism Project.

The Infrared microspectroscopy microscopes can record spectra from a range of different samples; from thin microtomed sections to polished blocks and embedded particles. This section highlights the types of samples that can be analysed using the IRM beamline

The High Performance Macromolecular Crystallography beamline will enable the study of very small (sub-5 micrometre) or weakly diffracting crystals, providing a state-of-the-art high-throughput facility for researchers. MX3 will be able to study the structures of large proteins and protein complexes for virology, drug design and industrial applications via goniometer mounted crystals, in-tray screening, or via serial crystallography methods.

Read about an ANSTO scientist and their work to prepare for a school project or interview.