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Nuclear power is used as a reliable and clean energy solution in most OECD countries and many other parts of the world. Although it is banned in Australia, a number of government reviews are looking at current prohibitions on nuclear power.

It's ANSTO's role to keep Australia across the very latest developments in nuclear science and technology from around the world. Part of this responsibility is keeping us abreast of the latest developments in nuclear power technologies.

With a well-established portfolio of nuclear research and the operation of Australia's only nuclear reactor OPAL, ANSTO scientists conduct both fundamental and applied research on fuel for current, advanced, and future nuclear technology systems.

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.

ANSTO is one of the world's leading providers of irradiation services for silicon ingots, which are used by the multimillion dollar electronics industry across Europe and Asia. Each year, ANSTO irradiates more than 50 tonnes of silicon.

ANSTO shared expertise on next-generation reactors and nuclear power with sustainable energy experts at the Australian Academy of Science symposium in May.

ANSTO is responsible for the Little Forest Legacy Site (LFLS) located within the ANSTO Buffer Zone boundary. This site, formerly known as the Little Forest Burial Ground (LFBG), was used by the Australian Atomic Energy Commission (AAEC) during the 1960’s to dispose of waste containing low levels of radioactivity and beryllium oxide (non-radioactive) in a series of shallow trenches. There has been regular monitoring of the site since 1966 and the results have been reported in ANSTO’s environmental monitoring reports.

The Australian Government recently signed a landmark emissions reduction technology deal with Great Britain, which includes nuclear energy and clean hydrogen among the six key low emission technologies the two countries hope to advance.

The shutdown of a nuclear reactor can be done manually by an operator following a well-established operating procedure.

Griffith University researchers are conducting an experiment at ANSTO that will test a revolutionary physics theory that time reversal symmetry-breaking by neutrinos might cause a time dilation at the quantum scale.

The installation of a cold neutron source (CNS), a component that reduces the energy and speed of the neutrons from a research reactor for use in scientific instruments, was successfully completed in September 2024.

Defence requirements push your technology, we can help. ANSTO is home to some of Australia’s most important landmark research infrastructure – more than $1.3bn of it.  Our unique capabilities are used by thousands of Australian researchers from industry and academia every year.

INVAP, the Argentinian advanced nuclear technology company, who designed and constructed the Open Pool Lightwater Reactor (OPAL) for ANSTO to replace the HIFAR reactor is celebrating 50 years of operations with the visit of a group of INVAP executives to ANSTO to celebrate their achievements and discuss future collaborations.

The nuclear analysis team at ANSTO recently had a significant role in the re-design and optimisation of a cold neutron source facility for the reactor, its installation and the subsequent restart after a six-month shutdown.

Molten Salt Reactors (MSRs) are nuclear reactors that use a fluid fuel in the form of very hot fluoride or chloride salt rather than the solid fuel used in most reactors. Since the fuel salt is liquid, it can be both the fuel to produce heat and the coolant to transport the heat to a power plant.