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.
Desarrollo e implementacion de una nueva generacion de herramientas de analisis nanoseguras 2016-2019
Desarrollo de un test de respiracion no invasivo para diagnosticar enfermedades tropicales a través del aliento.
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.