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The Australian Synchrotron in Melbourne has a suite of X-ray and infrared beamlines with applications in health, medical, food, environment, nano-technology, energy, mining, advanced materials, agriculture and cultural heritage.

Researchers from UNSW have found an extraordinary material that does expand or contract over an extremely wide temperature range and may be one of the most stable materials known.

Nuclear techniques will be crucial tools in the development of advanced materials that sustainably convert waste heat into useful forms of energy to benefit Australia.

With zero carbon emissions, green hydrogen is a promising fuel for many industries. PhD candidate Robert Walwyn, is researching new, advanced materials for safe and effective hydrogen gas storage.

ANSTO as a leading science research organization in Australia is committed to the ethical, humane and responsible care of animals used for scientific purposes.

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

Following your experiment at the Australian Synchrotron there are certain tasks that users can complete including a user feedback survey and claiming reimbursement for travel expenses.

New three year study with UNSW for Cotton Research Development Corporation.

ANSTO has been using Ion Beam Analysis (IBA) techniques to analyse fine particle pollution samples collected from key sites around Australia, and internationally, for more than 20 years.

On the 9th of December 2022, the Minister for Industry, Science and Technology provided his Statement of Expectations to ANSTO.

Biodeuteration involves the growth of microorganisms in a heavy water (deuterium oxide) culture medium supplemented with either a deuterated or hydrogenated carbon substrate, depending on the level of deuteration required. The biomass is harvested and the deuterated molecule (e.g. protein) is purified and characterised.

ANSTO Analytical Facility conducts a range of analyses required to support our commercial projects, and can analyse everything from simple samples to complex matrices not typically dealt with by standard commercial laboratories.

ANSTO’s radioanalytical facilities are recognised internationally and have extensive experience in the measurement of radioactivity from a wide variety of matrices. Our primary radoianalytical techniques include gamma spectrometry and alpha spectrometry.

This scholarship recognises outstanding ability and promise in the field of nuclear science and technology, specifically as it applies to nuclear energy. Successful applicants will demonstrate a history of interest in nuclear energy and a desire to continue this interest.