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ANSTO infrastructure and capabilities is ideally suited for solving problems relating to the development and characterisation of advanced materials, the engineering of manufactured components and manufacturing processes.

ANSTO addresses key scientific questions in the nuclear fuel cycle for both the current generation of nuclear reactors and future systems.

The Centre for Accelerator Science offers techniques for surface engineering and materials modification.

Doping with transition metals produced stability in bismuth oxide.

New cathode material provides a direction for the design of high performing sodium ion batteries for large scale energy storage

Pioneering work on materials for energy production, such as lithium ion batteries, has made ANSTO a centre of specialist capabilities and expertise.

ANSTO offers capabilities and expertise for the radiation testing and accreditation of space-based systems.

ANSTO has unique facilities, capabilities and expertise to investigate materials in extreme environments for applications in energy systems, the defence industry and emerging space sector.

An international research collaboration between the University of New South Wales (UNSW), the Shanghai Institute of Applied Physics (SINAP) and ANSTO has provided insights into the performance of advanced material for use in the high-temperature environment of molten salt systems.

Thales Australia, a key supplier to the Australian Defence Forces, provided an industrial challenge to National Graduate Innovation Forum participants relating to the production of piezoelectric ceramic components used in naval sonar arrays and systems.

The mechanical, electrical, chemical, optical and thermal properties of glass, as determined by its chemical composition and atomic structure, make it a highly useful material with a myriad of applications.