Chemical structures of the interfaces along with the electrical, mechanical and morphological properties at nanoscale appear equally relevant to drive the interactions between living and synthetic systems. Thus, the concept of Smart Biointerfaces is constantly gaining new valences. In this context, diverse but complementary contributions are needed on new biomaterials, multi-signal patterning methodologies, multiscale modelling, advanced characterization and processing technologies for the desired biomedical and biotechnological applications. The key to achieve important advances in the field of biointegrated devices resides in the successful integration of these technological and scientific areas. The field of Smart Biointerfaces is markedly interdisciplinary, bridging together bionanotechnologies, biomimetic devices, tissue engineering and biohybrid systems. The symposium will focus on a set of interdisciplinary topics, spanning from advanced drug delivery systems to novel tissue engineering strategies, from smart diagnostic and nano-resolved imaging techniques to safety of nanomaterials. The symposium on “Smart Biointerfaces for Smart Biomaterials” aims to bring together scientists from universities, research institutes and industries to review the current frontiers in the strongly interconnected areas of Nanobiotechnology, Biointerfaces and Biomaterials.
HHFunction-assembly of nano-materials towards electronics, energy and biological applications () (Workshops & Tutorials)
GGAdvanced materials and technologies for renewable energies - AMREN-2 () (Workshops & Tutorials) ZTwo dimensional crystals and van der Waals heterostructures for nanoelectronics (Nanomaterials)ĪASolution processing and properties of functional oxide thin films and nanostructures II (Nanomaterials)īBDefect-induced effects in nanomaterials (Nanomaterials)ĬCIn situ studies of functional nano materials at large scale facilities: from model systems to applications (Nanomaterials)ĭDLight interaction with nanomaterials (Nanomaterials)ĮECarbon-, or nitrogen-containing nanostructured thin films (Nanomaterials)įFSustainable knowledge and preservation of Cultural Heritage for future generations (2-4 May + Museum visit on Wed.
YGraphene and related materials: from fundamental science to applications (Nanomaterials) XFunctional materials for environmental sensors and energy systems (Energy) WMaterials and systems for micro-energy harvesting and storage (Energy) VThin film chalcogenide photovoltaic materials (Energy) UMaterials by design for energy applications (Energy) TAdvanced materials and characterization techniques for solar cells III (Energy) SBiomimetic bioactive biomaterials – the next generation of implantable devices (Biomaterials) RMultifunctional nanostructures for diagnostic and therapeutic of diseases (Biomaterials) QSmart biointerfaces for functional biomaterials (Biomaterials) PCarbon materials: surface chemistry and biomedical applications II (Biomaterials) OGroup IV semiconductors at the nanoscale - towards applications in photonics, electronics and life sciences (Semiconductors) NMaterials frontier for transparent advanced electronics II (E-MRS / MRS-J bilateral symposium) (Semiconductors) MSilicon compatible materials and integrated devices for photonics and optical sensing (Semiconductors) LWide bandgap materials for electron devices (Semiconductors) KGroup IV semiconductors materials research - growth, characterization and applications to electronics and spintronics (Semiconductors) JEstablished and emerging nanocolloids: from synthesis & characterization to applications II (Materials) IFunctional oxynitride films for sustainable development (Materials) HTailored disorder - an advanced materials design for innovative photonic applications (Materials) GMolecular systems for spintronics (Materials) AHybrid materials: from the laboratory to the market (Materials)īAdaptive materials: devices and systems towards unconventional computing, sensing, bio-electronics and robotics (Materials)ĬLaser-material interactions for tailoring future applications (Materials)ĭSolid state ionics: defect interactions and their influence on ionic and electronic transport (Materials)ĮSubstitution of critical raw materials: synthesis, characterization and processing of new advanced materials in optoelectronic and magnetic devices (Materials)įAdvanced materials for printing (Materials)