Devices that enable electrical control of the spin degree of freedom could seamlessly integrate logic and memory functions, thus mitigating power consumption and boosting performances. Semiconductors have also attracted a great deal of attention, because of prospects of implementing quantum spin manipulation with mature microelectronics technology. In particular, spintronic integrated circuits of ferromagnetic metals are now reaching the market. The spin degree of freedom can be harnessed for radically new ways of information processing and communication within a robust and scalable solid-state framework. The central goal is to showcase and cross-fertilize the many branches of spintronics, providing fundamental insights on newly emerging topics and materials. The symposium offers a venue for the discussion of the latest developments and research efforts related to spin-dependent phenomena in semiconductor systems.
WStress, structure, and stoichiometry effects on the properties of nanomaterials IV (BIO- AND NANO MATERIALS ) VNanocarbon electrochemistry and interfaces II (BIO- AND NANO MATERIALS ) UEngineering surfaces to control and elucidate cellular response (BIO- AND NANO MATERIALS ) TSilicon, Germanium, Diamond and Carbon nanostructures and their nanocomposites with other materials (BIO- AND NANO MATERIALS ) SMaterials- nanoelectronics & -nanophotonics (BIO- AND NANO MATERIALS ) RNIR optoelectronics – organic semiconductors and devices (MATERIALS AND DEVICES) QSynchrotron radiation and atomic layer deposition for advanced materials (MATERIALS AND DEVICES) PGroup III-Nitrides: fundamental research, optoelectronic devices and sensors (MATERIALS AND DEVICES) ODiamond for electronic devices II (MATERIALS AND DEVICES) NAdvanced oxide materials – growth, characterization and applications (MATERIALS AND DEVICES) MMaterial and device integration on silicon for advanced applications (MATERIALS AND DEVICES) LIntegration, metrology and technology CAD co-development for sub-10nm technology nodes (MATERIALS AND DEVICES)
KTopological materials and disorder: vital or fatal? (SPECIAL MATERIALS) JManipulation of functional properties of the layered materials and their characterization (SPECIAL MATERIALS) ISolutions for critical raw materials under extreme conditions (SPECIAL MATERIALS)
HEnergy & functional materials: high pressure, high temperature synthesis & characterization (SPECIAL MATERIALS) GPerovskite solar cells (SPECIAL MATERIALS) AMaterials for energy storage, production & harvesting applications (ENERGY STORAGE )īScanning probe microscopy for energy applications (ENERGY STORAGE )ĬMultifunctionality of metal hydrides for energy storage – developments and perspectives (ENERGY STORAGE )ĭAdvanced composite materials: new production technologies, unique properties, new applications (SPECIAL MATERIALS)ĮBasic research on ionic-covalent materials for nuclear applications (SPECIAL MATERIALS)įSpintronics in semiconductors, 2D materials and topological insulators (SPECIAL MATERIALS)