ANSTO contributes to funded ARC Discovery and Linkage projects
Enhancing safety of trailer trucks among research projects
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Enhancing safety of trailer trucks among research projects
The Medium Energy- X-ray Absorption Spectroscopy beamlines will provide access to XANES and EXAFS data from a bending magnet source, optimised for cutting-edge applications in biological, agricultural and environmental science in an energy range that is not currently available at the Australia Synchrotron.
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More than 3,200 solar panels have been installed across the rooftops of the Australian Nuclear Science and Technology Organisation’s (ANSTO) Australian Synchrotron in Clayton, offsetting enough power to light up the whole MCG for more than five years.
Explore ANSTO's range of publications and reports available for the public.
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.
The Infrared microspectroscopy microscopes can record spectra from a range of different samples; from thin microtomed sections to polished blocks and embedded particles. This section highlights the types of samples that can be analysed using the IRM beamline
Nuclear science and technology award recipients to deliver Distinguished Lectures at ANSTO.
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.
A large international team led by scientists from the Institute for Superconducting and Electronic Materials at the University of Wollongong has verified that the introduction of novel molecular orbital interactions can improve the structural stability of cathode materials for lithium-ion batteries.
Publications and resources from the Powder Diffraction beamline.
Archive of ANSTO research publications, seminars and short talks.
Sample environments, Data Analysis, Mail-in Services.
Guidance for obtaining and maintaining human or animal ethics approval at the Australian Synchrotron.
Highlights of the Energy Materials Project.