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How to prepare samples for analysis on the Powder Diffraction beamline.

With all excavation completed and rock removed from the underground site, the physics lab will now be built within the caverns of the Stawell Mines site.

Radioisotopes are widely used in medicine, industry, and scientific research. New applications for radioisotopes are constantly being developed.

View the upcoming proposal deadlines for access to ANSTO’s Research Portal. The User Office provides support for research proposals and enables you to leverage our world-class research infrastructure and facilities.

An instrument used to study any materials with structure of the length scale 1-100nm.

The Biological Small Angle X-ray Scattering beamline will be optimised for measuring small angle scattering of surfactants, nanoparticles, polymers, lipids, proteins and other biological macromolecules in solution. BioSAXS combines combine a state-of-the-art high-flux small angle scattering beamline with specialised in-line protein purification and preparation techniques for high-throughput protein analysis.

Timetable and Teams links

Proposals at the Australian Centre for Neutron Scattering and National Deuteration Facility.

Exploring the interaction of polystyrene nanoplastics and blood plasma proteins.

Archive of ANSTO research publications, seminars and short talks.

Resources and a list of user publications associated with Infrared microspectroscopy.

The high-energy heavy ion microprobe is used for the characterisation or modification of material properties at depths from approximately 1 micrometre to maximum depths of up to 500 micrometres from the material surface.

The High Performance Macromolecular Crystallography beamline will enable the study of very small (sub-5 micrometre) or weakly diffracting crystals, providing a state-of-the-art high-throughput facility for researchers. MX3 will be able to study the structures of large proteins and protein complexes for virology, drug design and industrial applications via goniometer mounted crystals, in-tray screening, or via serial crystallography methods.

Highlights of the Magnetism Project.

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.