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Invited Talks

Articles
Title Hits
Keynote Lecture at the 9th IAHR Europe Congress on Innovating Hydro-Environment Engineering for a Sustainable Future: Arctic Waters and Beyond, Luleå, Sweden (9.6.2026) 62
Colloquium in the Department of Physics at Technical University Darmstadt (29.05.2026) 75
Colloquium in the Department of Chemistry at Universität Hamburg, Hamburg (27.04.2026) 125
Spring Meeting of the German Physical Society, Dresden (9.03.2026) 196
Plenary talk at the 8th International School and Conference on Biological Materials Science (Siegburg/Bonn, Germany, 6.3.2026) 177
Distinguished Lecture at Center for Advanced Systems Understanding CASUS (Görlitz, Germany, 14.01.26) 198
Seminar at Sandia National Laboratories (USA, 10.12.25) 338
Seminar at Max Planck Institute of Colloids and Interfaces (Potsdam, 24.11.25) 275
Icebreaker talk at the CMWS graduate workshop (Freiberg, 22.09.25) 337
Keynote lecture at the 5th International Symposium on Nanoporous Materials by Dealloying (Sendai, Japan, 6.10.25) 374
Webinar of the Deutsche Gesellschaft für Materialien Academy (11.07.25) 460
Science Seminar of the European X-Ray Free Electron Laser EuXFEL (Schenefeld/Hamburg Germany, 24.06.2025) 698
International Conference on Porous Media - Interpore 2025 (Albuquerque USA, 20.05.2025) 851
Freiberg Centre for Water Research (ZeWaF) (25.04.2025) 809
Spring Meeting of the Materials Research Society (MRS), Seattle (07.04.2025) 886

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News

  • 05.06.2026 Water, Clay and Carbon: A New Route to Sustainable Energy Storage

    🌎 Water, Clay and Carbon: A New Route to Sustainable Energy Storage - we demonstrate an all-water supercapacitor stable over 60,000 charging cycles. 

    💧⚡Can pure water store electrical energy? A research team within the Cluster of Excellence BlueMat – Water-Driven Materials has now shown that it can.

    🔋 By confining water within nanometer-sized channels in clay minerals, the team developed a supercapacitor capable of efficiently storing and transporting electrical charge with remarkable stability.

    💡 Read more in our latest press release ➡️ https://lnkd.in/dttmcBcQ

    Publication:
    Artemov, V. et al., All-water supercapacitor enabled by 1-nm clay channels, Nat Commun 17, 5014 (2026).

    https://www.nature.com/articles/s41467-026-73924-1

  • 23.04.2026 Lehmann Prize awarded to Patrick Huber

    🏆 Congratulations to Patrick Huber on receiving the Volker Lehmann Prize for the most outstanding talk at the 2026 Porous Semiconductors Science and Technology Conference (PSST2026) in Naples, Italy.

    💧 His presentation, “Nature’s Blueprint: Water-Enabled Functions in Hierarchically Porous Silicon,” showcased key research directions of the Cluster of Excellence BlueMat: Water-Driven Materials. 

    🏆 The Lehmann Prize honors Volker Lehmann, who—together with Leigh Canham and Ulrich Gösele - co-discovered the quantum confinement effect in silicon.

  • 22.10.2025  Water as an energy carrier: nanoporous silicon generates electricity from friction with water

    Exciting news! Our new publication in Nano Energy presents a novel way for converting mechanical energy into electricity – by harnessing water confined in nanometre-sized pores of silicon as the active working fluid (press release).

  • 29.09.2025 Colossal Effect of Nanopore Surface Ionic Charge on the Dynamics of Confined Water

    In a recent publication, we report a particularly rewarding result from a French-German collaboration linking Hamburg, Rennes, Grenoble and Paris, with key neutron scattering experiments carried out at the high-flux neutron reactor of the Institut Laue-Langevin in Grenoble, France. 

    We show that water behaves very differently when confined to tiny nanopores—and that surface charge makes all the difference. Adding ionic charges to pore walls dramatically slows down water motion, not just in the vicinity of the pore wall but throughout the entire pore. This long-range control goes far beyond simple wetting effects and highlights surface charge as a powerful tool for using water as a nanoscale working fluid in water-driven materials, membranes, and nanotechnologies.

  • 09.09.2025 When symmetry breaks in tiny spaces

    Nanopores unlock hidden chirality in exotic liquid crystals – with the observation now made by us within an international cooperation with Ukraine, France and Poland, they might find even wider usage in energy storage or conversion or tunable lenses (see press release).

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