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Investigators from UNSW and ANSTO have provided insights into the dynamic interactions of atoms in a promising material for sodium-ion batteries.

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.

A long-standing collaboration led biomedical researchers from the University of Sydney has recently achieved success with the recent announcement of an innovative bone implant that significantly reduces rejection and inflammation.

A research team from ETH Zurich developing and characterizing silicon carbide devices for power electronics, recently spent time at ANSTO’s Centre for Accelerator Science to use a specialised beamline in their investigations.

An Australian-led international research team, including a core group of ANSTO scientists, has found that doping a promising material provides a simple, effective method capable of extracting uranium from seawater.

ANSTO has provided supporting experimental evidence of a highly unusual quantum state, a quantum spin liquid (QSL), in a two-dimensional material.

An international team led by scientists at City University of Hong Kong has found flexible metal-organic framework (MOF) with one-dimensional channels that acts as a “molecular trapdoor” to selectively adsorb gases, such as carbon dioxide, in response to temperature and pressure changes.

Chinese researchers have eveloped a novel strategy for the scalable production of high-performance, thin, and free-standing lithium anodes for lithium-ion batteries with enhanced cycling stability and electrochemical properties.

Scientists at ANSTO characterise structures with atomic detail using probes such as x-rays, electrons, neutrons and ions.

Soft X-ray experiments used to characterise new thin film topological Dirac Semimetal.