Transition metals like iron (and copper) are catalytic biological cofactors of fundamental importance. The over abundance of potential ligands in biological fluids limits the fraction of solvated metal ions to vanishingly lower levels means coordination chemistry determines the reactivity and availability of biometals across cellular environments. Coordination chemistry is dynamic, responding...
The thermal triple-axis spectrometer on TAIPAN has been running for over ten years and together with the filter spectrometer which has been running for three and half years have contributed to a variety of studies in solid-state physics and chemistry, materials science and engineering, geosciences, energy science, and the biosciences. In particular a strong focus has been elucidating the...
Solid-state ionic conductors have been increasingly investigated as an alternative to liquid electrolytes in solid state sodium ion batteries. Whilst much progress has been made in the design and development of promising candidate materials, their complex structures and difficulties in probing dynamics beyond the bulk picture has meant that understanding the mechanisms involved in...
Studying the prototypical ferromagnetic superconductor UGe$_2$ we demonstrate the potential of the newly developed longitudinal modulated intensity by zero effort (MIEZE) technique for the study of quantum matter. MIEZE is a novel neutron spectroscopy method with ultrahigh energy resolution of at least 1$\mu$eV at the RESEDA beamline at the Heinz Maier-Leibnitz Zentrum in Garching, Germany....