Newsroom

The II IMS Day will be held on 28 November 2025. The event will take place at Salão Nobre, Instituto Superior Técnico, Lisboa.

Porto, Portugal, for the 27th IUPAC International Conference on Chemical Thermodynamics (ICCT2025), taking place from July 20 to 25, 2025. https://icct2025.events.chemistry.pt/

ICERR.R work Shop

ILMAT conference series The International Conferences on Ionic Liquid-Based Materials (ILMAT) are well-established European conferences that focus on the properties and applications of ionic liquids. Previous conferences were successfully held in Vienna (2011), Montpellier (2013), Berlin (2015), Santiago de Compostela (2017), Paris (2019), and Alsace (2021). This European conference is dedicated to the study of ionic fluids, with a strong emphasis on ionic liquids. It comprehensively covers a wide range of topics, including the physicochemical and biological properties of these substances, as well as their potential applications. In recent years, the remarkable potential applications of ionic liquids have captured the interest of researchers from various multidisciplinary fields such as chemistry, physics, biology, and materials engineering.

ARBRE is co-organizing the 3rd edition of the EMBO Practical course Biomolecular interaction analysis: from molecules to cells, that runs every other year in Porto at the Institute for Research and Innovation in Health (i3S). The 2018 edition is taking place from October 29 until November 3. Applications are open until June 20, 2018 at http://meetings.embo.org/event/18-biomolecule

Molecular-scale biophysics is a dynamic and ever-expanding interdisciplinary field that aims to study biological macromolecules and assemblies as a whole, at an intermediate level between atomic-resolution structural descriptions and cellular-level observations (“Between Atom and Cell”), with significant applications in biomedicine and drug discovery. The MOBIEU Action aims to seed a large-scale pan-European interdisciplinary synergistic clustering, allowing to ally and synergize the power of spectroscopic, hydrodynamic, real-time microfluidic, thermodynamic and single-molecule approaches.