Ricerc@Sapienza

Il Laboratorio di Acceleratori e Misurazioni RF dispone di analizzatori di rete vettoriali che coprono una gamma di frequenze da 100 kHz a 20 GHz con una potenza dei segnali fino a 30 dBm.

About us

Grande Infrastrutture di Ateneo . The laboratory is equipped with state-of-the art THz technology for high precision spectroscopy and imaging. It hosts high power QCL THz sources (mW level), a 2D high sensitivity microbolometer sensor working at room temperature and a spectroscopy system with resolution down to 10MHz.

Development of electrode materials for:
(i) electrochemical devices for energy storage;
(ii) optimization of processes involving lithium-ion batteries, electrolyzers, electrochemical filters and metals
electrowinning.
Development of nanostructured materials for:
(i) energy production and storage;
(ii) molecular recognition and sensing.

Il laboratorio nasce principalmente per supportare lo sviluppo di rivelatori per lo studio di radiazioni (elettroni, fotoni, protoni, neutroni) con energia di interesse per applicazioni della fisica delle particelle alla medicina. Nel laboratorio sono stati sviluppati rivelatori a gas, scintillatori e rivelatori al silicio. Sono presenti le apparecchiature necessarie a operare, acquisire i dati e verificare il corretto funzionamento di tali rivelatori anche tramite l’uso di specifiche sorgenti radioattive.

At META-IR, we investigate the infrared spectral and spatial properties of newly emerging materials as well as metamaterials, for taming and tuning of the infrared emitted radiation. The goal of the laboratory's research lies in the synergistic overlap of engineering, photonics, and materials science.

The Molecular Photonics Laboratory (MPL) was established in 1997 and gathers equipment, expertise and experiments used for the study of the linear, nonlinear, photoluminescence and electroluminescence properties of molecular and polymeric organic materials. Such materials are used for the fabrication of integrated optical devices, organic light emitting diodes (OLED) and dye-sensitized organic solar cells (DSSC). Since 2007 the laboratory started migrating towards the field of Biophotonics, in which the materials are still organic but of biological origin.

The Laboratory of Radiation Protection is mainly devoted to experimental applications related to environmental radioactivity (radon in air/water, radioactivity of building materials), and to nuclear measurements (alpha/beta/gamma spectrometry and neutron techniques).