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PFAS chemicals in packaging pose serious environmental and health risks, but Australia’s packaging industry is leading the way to phase them out. Backed by cutting-edge nuclear science, industry-led action is creating safer packaging solutions for all Australians.

CORIS360 delivers fast, accurate radiation detection and imaging, making invisible radiation visible to improve safety and decision making in radioactive environments.

The cost of building radiation-hardness testing into the design and qualification of electronics is typically well under one per cent of a major project’s budget.

In a new study published in Nature Communications, researchers from UNSW have demonstrated a more sustainable alternative: an electrochemical pathway that couples carbon dioxide and nitrogen-containing species to produce urea under mild conditions.

Australian Nuclear Science and Technology Organisation (ANSTO) is committed to protecting your personal information in accordance with the Privacy Act 1988 (Cth) (Privacy Act) and the Australian Privacy Principles.

Unique landmark instrumentation and expertise are a hallmark of ANSTO’s sovereign capability, unavailable anywhere else in Australia.  Our ability to identify the source of hazardous particulates in air, the age of water in aquifers and the detailed chemistry of toxic elements in complex soil and biota specimens are just some examples of ANSTO capability.

Researchers from Murdoch University and associated collaborators are using ANSTO’s unique nuclear capabilities to gain detailed information about how wheat crops take in administered micronutrients to maximise their efficient use.

Meeting of minds about potential next-generation cancer treatment for Australians

ANSTO provides access to specialised facilities and capabilities by application. Please ensure that you contact the relevant ANSTO scientist for advice before submitting a proposal.

The ANSTO Science Series is a live and virtual meet-up that focuses on the key capacities of ANSTO’s people, partners and facilities and how they are meeting global challenges in sustainable industries, medicine, advanced manufacturing and in accelerating small business.

Accurate ‘fingerprinting’ tool to verify source of origin is in development with collaborators from academia and industry.

Hot Isostatic Pressing supports advanced manufacturing by increasing a material's density and reducing porosity. This capability complements ANSTO’s extensive suite of instruments and techniques for characterising materials and final products.

ANSTO will make an application to the independent nuclear regulator, ARPANSA, to vary its license for its Interim Waste Store. The original operating license was approved in 2015, enabling the facility to hold what is called a TN-81 cask of intermediate-level radioactive waste that was safely repatriated from France in 2015.

ANSTO's Sydney locations are home to the Open Pool Australian Light-water (OPAL) multi-purpose reactor, the Centre for Accelerator Science (CAS), the Australian Centre for Neutron Scattering, the National Research Cyclotron and the National Deuteration Facility.

Industrial Engagement Manager at ANSTO and Professor in Advanced Structural Materials at the University of Sydney, Anna Paradowska is among the authors who contributed to a 2019 paper that was recently awarded the ASM International ASM Henry Marion Howe Medal in Metallurgical and Materials Transactions A.

ANSTO plays a leading role in measuring and characterising fine particles from a range of locations around Australia and internationally.