The European project E2PHEST2US had as its objective the development of innovative cogeneration modules for the conversion of concentrated solar energy into small-sized electricity.
Aims of the project: The main purpose of the Action is the creation of a network of highly inter-disciplinary skills, focused on the research and development of new composite materials of inorganic nantubes and polymers.
The objective of Ricircola project its the development of the new circular economy paradigm to be transferred within the production cycle of the automobile FCA Melfi plant (Italy).
SENSOCARD aims to the optimization and field demonstration of an integrated prototype for the diagnosis of cardiovascular emergencies. The prototype is a multifunctional platform that:
- integrates pulse oximeter, sphygmomanometer, ECG and Impedance Cardiography (ICG) signals with blood chemistry values (e.g. troponin) detected from a drop of blood;
- allows the rapid and non-invasive identification of fatal arrhythmias, heart attack and respiratory failure induced by pulmonary edema.
Project partner: Microsis S.r.l., CNR - ISM (Montelibretti branch)
AHEAD2020 has been approved to advance the integration of national efforts in high-energy astrophysics, keeping the community at the cutting edge of science and technology and ensuring that observatories are at the state of the art.
The objectives of the project are: a) the study of elementary processes of radiation damage in prototype molecules of biological interest by exploiting the potential of innovative instrumentation and b) the study of systems of increasing complexity or molecules in their natural environment with new spectroscopic techniques.
ITER Fusion for Energy requires the development of a matrix of neutron beam spectrometers made of diamond.
Many technological applications require tools to maintain a stable micrometer distance between two surfaces. The requirements are more stringent if it is necessary to ensure electrical insulation between surfaces and also if the thermal insulation must also be met. Dielectric microspacers (DMS) represent a microtechnology capable of meeting all these requirements.
The goal of the project was the realization of a hybrid HPA (High Power Amplifier) demonstrator in the 11-12 GHz frequency range with an output power greater than 60 W and an efficiency greater than 45%, optimizing technologies in GaN (gallium nitride).
During the project laser based techniques have been used for the generation and characterization of nanostructured materials together with the definition of the formulation of operational protocols to be followed for improving the energy conversion yields of new technical solutions and new technologies adopted in the construction of the solar concentrators manufactured by the SME partner.
The aim of the International Cooperation CLaN project is to strengthen the participation of the ISM-CNR Tito Scalo branch to international scientific research networks focused on the definition and dissemination of innovative integrated laser based methodologies for the production and characterization of nanomaterials of technological interest for R&D