This study can open a new window on the future development of light-driven nanomotors and their potential applications in different areas such as biomedical, environmental and nanoengineering fields.
This study will focus on investigating the feasibility of a non-invasive methodology for the diagnosis of bovine tuberculosis in cattle.
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 TROPSENSE 2015-2018
Develop a robotic micromanipulation system with MEMS micro-grippers integrated with microsensors for position/force feedback control for cell manipulation.
Novel interlayer films for laminated glass panels with enhanced functionalities.
Development of a novel manufacturing process of customized intra corneal ring segments based on fully-monitored microtechnologies production technologies
New ocular implant with biocompatibility and high speed proliferation ORBIMPLANT
New doped boro-phosphate vitreous materials, as nano-powders and nano-structured thin films, with high optical and magnetic properties, for photonics MAGPHOGLASS 2014-2016
Project: Innovative Sensor for the fast Analysis of Nanoparticles in Selected Target Products (INSTANT)INSTANT will face the challenge of the detection, identification and quantification of engineered nanoparticles (ENPs) in complex matrices such a...
Project: Intelligent Monitoring System based on Acoustic Emissions Sensing for Plant Condition Monitoring and Preventative Maintenance (MOSYCOUSIS)Unexpected failure in an industrial production chain does not only involve the costs of failed parts...
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