Kluenker, M.; Connolly, B. M.; Marolf, D. M.; Tahir, M. N.; Korschelt, K.; Simon, P.; Köhler, U.; Plana-Ruiz, S.; Barton, B.; Panthoefer, M.et al.; Kolb, U.; Tremel, W.: Controlling the Morphology of Au-Pd Heterodimer Nanoparticles by Surface Ligands. Inorganic Chemistry 57 (21), pp. 13640 - 13652 (2018)
Uri Vool was awarded a starting grant from the European Research Council (ERC). He is an independent group leader at the MPI-CPfS, and will use the grant to explore novel superconductors by integrating them into hybrid quantum circuits.
Maia G. Vergniory, a researcher in our department of Solid State Chemistry, has recently been elected as APS Fellow by the American Physical Society (APS) for her pioneering work developing a new theory known as Topological Quantum Chemistry that has allowed to identify thousands of new topological materials.
A team of researchers from MPI for Chemical Physics of Solids and the MPI for the Structure and Dynamics of Matter in collaboration with researchers from Switzerland and Spain has reported the first observation in a structurally achiral crystal, the Kagome superconductor CsV3Sb5. Their work has been published in the current issue of Nature.
We offer our warm congratulations to our Max Planck Fellow Professor J.C. Séamus Davis of the University of Oxford and University College Cork, who has been awarded the prestigious 2023 Oliver E. Buckley Prize of the American Physical Society.
A team of scientists from the MPI CPFS and Stockholm, Tsukuba, Oxford, Toronto, St Andrews and Birmingham combined focused ion beam microstructuring and uniaxial pressure to achieve a record value of uniaxial pressure for the unconventional superconductor Sr2RuO4 and found that the superconducting state of Sr2RuO4 evolved surprisingly.
Working with a new experimental technique called the ac elastocaloric effect, a team of scientists from Dresden, Karlsruhe, St Andrews, Cornell, Tsukuba and Stanford has mapped out the so-called phase diagram of the unconventional superconductor Sr2RuO4. The results narrow down the on-going, 25 years quest to understand the superconductivity of Sr2RuO4 and set a benchmark for future work.