The Future of Chemistry with MAX IV and ESS - Satellite event to the 1st Swedish Chemical Society meeting
Sölvegatan 20, 223 62 Lund
We welcome you to a satellite event to the 1st Swedish Chemical Society meeting in Lund to discuss the future of chemistry with MAX IV and ESS. Join us on the last day of the conference for a light lunch, inspiring talks and a midsummer mingle with drinks and snacks!
SPEAKERS Regine von Klitzing, Technische Universität Darmstadt Lise Arleth, Niehls Bohr Institute, University of Copenhagen Paul Shearing, University College London John R. Bargar, SLAC lead PI, Stanford
Registration Fee: Free admission incl. food
Everyone is welcome to attend! We can only provide lunch to those who have pre-registered. If you wish to enter a late registration, please e-mail Åsa Grunning (contact details below)
(LINXS Director, Lund University )
Regine von Klitzing - Surface sensitive Neutron Scattering for Studying Structure and Dynamics of Polymer Coatings40m
Prof. von Klitzing is a Full Professor for Physics at the Technical University Darmstadt. A particular focus of her work is on interactions in thin liquid films and at the air/water interfaces, and on the investigation of polyelectrolyte multilayers and temperature and pH sensitive hydrogels and their use as “smart” switches and sensors.
(Technische Universität Darmstadt)
Lise Arleth - Investigation of membrane proteins under solution conditions using X-rays and Neutrons40m
Prof. Arleth is a Professor and Head of the The Structural Biophysics Group at the Niels Bohr Institute, Faculty of Science, Copenhagen University, Denmark. Her main research topics include biophysics and physical chemistry with the main focus on structural investigations of macromolecules and their aggregates in solution.
(Niehls Bohr Institute, University of Copenhagen)
Paul Shearing - X-ray imaging methods for batteries and electrochemical devices40m
Dr. Shearing is a reader in Chemical Engineering and Materials at University College London. His research interests are in electrochemical engineering – the study and design of electrochemical processes in devices including fuel cells, batteries and electrochemical reactors. Projects include understanding and development of Li batteries, development of Solid Oxide Fuel Cells (SOFCs), electro-reduction of spent nuclear fuels using molten salt reactions, and monitoring corrosion in PEM fuel cells.
(University College London)
John R. Bargar - Multi-technique synchrotron investigations of complex biogeochemical systems40m
Dr. John Bargar is a Lead Scientist, Geochemistry and Biogeochemistry Division, at the Stanford Synchrotron Radiation Laboratory. He has experience in low-temperature geochemistry, biogeochemistry, and synchrotron-based x-ray spectroscopy, spectromicroscopy, and scattering techniques, laboratory and field systems. His research interests include biogeochemistry of redox active metals and light elements, structure and reactivity of biogenic nanominerals, and mineral-water interface geochemistry.
Dr.John R. Bargar
(SLAC lead PI,Stanford )