This study will focus on investigating the feasibility of a non-invasive methodology for the diagnosis of bovine tuberculosis in cattle.
To elaborate, evaluate and validate at laboratory level a technology for the synthesis of an innovative nonlinear optical material having optical limiting properties in visible and infrared domains.
Developing and implementation of a new generation of nanosafety assessment tools 2016-2019
Development of a non-invasive breath test for early diagnosis of tropical diseases.
In the NOVAGLASS project, additional functionalities based on printed electronics technologies will be explored covering lighting sources and RFID detection systems.
developing a new versatile, integral, trustable robust, accurate and fully-monitored manufacturing process based on new cuttingedge production microtechnologies, capable to provide a wider range of customized geometries for ICRS parts, reducing surgery complexity and variability, and offering a better solution to more specific needs of patients.
develop a robotic micromanipulation system with MEMS micro-grippers integrated with microsensors for position/force feedback control for cell manipulation.