Plenary lectures
Prof. Markus Antonietti - Max Planck Institute of Colloids and Interfaces - University of Potsdam, GERMANYSimply Black Magic: towards a low(er) temperature sol-gel chemistry of carbon materials
Dr Delphine Blanc Elkem, France
Elkem Silicones – Colloïds for soft chemistry & new applications – The Open Innovation eco-system
Prof. Bruce Dunn - University of California, Los Angeles, USA
Creating new generations of electrochemical materials by exploting Sol-Gel chemistry
Prof. Julia Greer - Caltech, Pasadena, USA
Materials by Design: Three-Dimensional (3D) Nano-Architected Meta-Materials
Iryna Gozhyk Saint-Gobain Recherche, France
Flat and patterned Sol-Gel films : From scalable nano-fabrication to optics
Prof. Krzysztof Matyjaszewski - Carnegie Mellon University, Pittsburgh, USA
Nanostructured Functional Materials by ATRP
Invited speakers
Prof David AVNIR The Hebrew University of Jerusalem, Israel.Aerogels: Magnetism, sustained release, 3d-printing
Prof Raffaella BUONSANTI EPFL, Switzerland
Colloidal chemistry to design well-defined and tunable nanomaterials for catalysis and energy applications
Prof Lourdes CALZADA ICMM-CSIC, Spain
Low-temperature Sol-Gel methods for the integration of crystalline metal oxide thin films in flexible electronics
Dr Mateus CARDOSO LNLS, Brazil
Interaction of surface-modified silica nanoparticles and biological components: a synchrotron approach
Dr Sophie CARENCO LCMCP, France
Nanoparticle design: From the solution to the nanoscaled reactive metal-containing solid
Prof Luis D CARLOS Universty of Aveiro, Portugal
Light-emitting hybrid materials for temperature sensing, molecular logic and IoT applications
Prof Damien DEBECKER UCL, Belgium
Preparation of porous catalysts by aerosol-assisted Sol-Gel
Dr Jean-Yves DELANNOY Siemens technology, USA
Molecular Informed Large-Scale Simulations
Prof Giorgia FRANCHIN University of Padova, Italy
Sol-Gel chemistry and additive manufacturing: Potential for ceramic fabrication
Dr Corine GÉRARDIN ICGM, France
Eeficient polymer templates for tailoring properties of functional ordered mesoporous materials
Prof Benoît HEINRICHS University of Liège, Belgium
Upscaling sol-gel technology to make it a competitive way for coating manufacture and process at an industrial scale
Prof Eva HEMMER University of Ottawa, Canada
Colour-tuneable lanthanide-based nanoparticles for applications from biomedecine to printing
Prof Beatriz JULIAN-LOPEZ University Jaume I Castellón, Spain
Towards more efficient and sustainable halide perovskites for photovoltaics and optoelectronics
Prof Vadim KESSLER SLU, Sweden
Metal oxide Sol-Gel materials as drug delivery vehicles and components of tissue scaffolds: from (OXO)Alkoxide paperbag models to applications
Prof Christel LABERTY LCMCP, France
Combining Sol-Gel chemistry and electrospinning process to develop composite membrane with self healing properties : Application in Li-ion battery and fuel cells
Dr Anne LESAGE CRMN, France
Decoding Structural Complexity of Supported Molecular Catalysts by DNP Surface Enhanced Solid-State NMR Spectroscopy
Dr Mateusz ODZIOMEK Max Planck Institute, Germany
Crack self-ordering: fabrication of nanoporous periodic arrays of metal oxidies
Dr Kenji OKADA Osaka Prefecture University, Japan
Organic-inorganic epitaxial interface on metal hydroxides as scaffold for oriented framework compound films with unique properties
Prof Dr Atsushi SHIMOJIMA Waseda University, Japan
Design of self-healing siloxane-based nanomaterials
Dr Valentin SMEETS UCL, Belgium
Original Sol-Gel synthetic approaches to high-performance ti-si02 catalysts
Dr Francesca TALLIA Imperial College London, England
Bioglass-derived Sol-Gel hybrid scaffolds for bone and cartilage regeneration: from design to in vivo studies
Prof Michael YU The University of Queensland, Australia
Surfactant-free silica-polymer assembly: A new paradigm
ISGS Awards lectures
-Life Achievement Award-Prof. Sara Aldabe Bilmes (Argentina)
Prof. Kazuki Nakanishi (Nagoya Univ., Japan)
- Ulrich Award-
Dr. Nataly Carolina Rosero Navarro (Hokkaido Univ., Japan)
Dr. George Hasegawa (Nagoya Univ., Japan)
Porous Monolithic Electrodes Prepared via Sol–Gel Processes