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Recent catastrophic Australian bushfires produced extremely high levels of fine particle pollution.

Archive of ANSTO research publications, seminars and short talks.

Highlights of the Energy Materials Project.

ANSTO’s National Deuteration Facility has been providing high-quality deuterated lipids used in the construction of cell membrane models to support research that improves our understanding of how the virus interacts with elements of the cell membrane, a relatively new area of investigation.

ANSTO is expanding its global connections, with the nandin Innovation Centre joining an international network created to increase cross industry collaboration and co-creation.

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

Two approaches use existing low cost and low energy technologies to reuse stockpiled waste from mining operations - capturing carbon dioxide in the form of valuable carbonate minerals.

Explore the exciting finalist and runner up entries of previous year ANSTO hackathons!

An environmental study supported by a citizen science project at ANSTO and UNSW has brought  greater understanding of the movement of birds between all of Australia’s major water basins and the importance of the Murray-Darling River Basin.

ANSTO has been tracking and publishing data on fine particle pollution from key sites around Australia, and internationally, for more than 20 years.  

Four successful applicants announced for the 2018 AINSE-ANSTO-French Embassy Research Internship Program.

Melbourne researchers map the structure of a key COVID-19 protein using the Australian Synchrotron

ANSTO is an experienced provider of Teacher Professional Development for Australian and International teachers and our courses cover a wide range of topics. Hear from expert speakers, receive new education resources, and develop lessons for your own class.

Research elucidates how in situ cosmogenic radiocarbon is produced, retained and lost in the top layer of compacting snow (the ‘firn layer’) and the shallow ice below at an ice accumulation site in Greenland.

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

Australia’s Open Pool Australian Lightwater (OPAL) reactor is a state-of-the-art 20 megawatt multi-purpose reactor that uses low enriched uranium (LEU) fuel to achieve a range of  activities to benefit human health, enable research to support a more sustainable environment and provide innovative solutions for industry.