ISTITUTO DEI MATERIALI PER L’ELETTRONICA ED IL MAGNETISMO Sede: Parma - UOS: Genova, Trento, Torino Chocralski CdTe MAP of the LABS CZT X-ray det. response ZnO TP SEI CL l = 381 nm CL l = 515 nm MBE SnO2 NBs 3 Magnetisation (emu/cm ) 800 400 // 0 Ab initio calculations -400 14 1x10 Inorg/Inorg Org/Inorg - 1 Org/Inorg - 2 2 ions/cm A1 -800 -15 -10 MFM -5 0 5 10 15 Magnetic field (kOe) Nanosystem for drug delivery i.e. based on Magnetic NP 0.136 nm InN/InGaN InN/Dyes [110] ZnO/Dyes Polyelectrolyte capsules Si Organic Bioelectronics and Memristors 0.5 nm SYNAPSES Homo- (a) and hetero- (b) Synaptic junctions Model of learning for Limnea Stagnalis: association of the mechanical stimulus with presence of food Nanosystems for Photodynamic therapy Intensity (arb. unit) Sputtering Zero loss high gain C-K edge Plasmon loss low gain 0 100 200 300 Energy Loss (eV) 400 500 EF-FETEM 8 Magnetic Refrigerators Photovoltaic Cells for Infrared Radiation Products developed with industrial partners 2 Role of IMEM-CNR 3 Superconducting Power Cables materials engineering technology development Magnetic Sensors for Electric Vehicles 7 6 X-ray Detectors and Monochromators Humidity Sensors 5 Bioelectronics and BioSensors Gas & OV Sensors 4 prototype manufacturing Roma, 9 Settembre 2013 1 Thin Film Photovoltaic Modules