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SETNanoMetro

Shape-engineered TiO2 nanoparticles for metrology of functional properties: setting design rules from material synthesis to nanostructured devices

Ente finanziatore
UE
Periodo
01/12/2013 - 31/03/2017
Responsabile
Prof. Gianmario Martra

Partecipanti al progetto

Descrizione del progetto

According to European Commission [EC, COM (2012) 572, 3.10.2012] important challenges at European level are related to the establishment of validated method and instrumentation for detection, characterization and analysis of nanoparticles. In the framework of the SETNanometro project, the use of various measurement techniques for the determination of the NPs properties will allow to move from the currently used "trial and error" approach toward the development of well defined and controlled protocols for the production of TiO2 NPs. A particular care will be devoted to the establishment of correct metrological traceability chain in order to ensure the reliability of the results. The lack of international measurement standards for calibration is an aspect of particular relevance in nanotechnologies as it is difficult to select a universal calibration artefact to achieve repeatability at nanoscale. The materials produced according to such procedures, will be hence sufficiently characterised and homogeneous in their properties to become candidate Certified Reference Materials to be used in various applications where the lack of metrological traceability is encountered. The project results are expected to lead to fundamental impacts on the following areas: Environment: the increased knowledge of TiO2 NPs will improve the photocatalytic properties for the treatment of pollutants in air and water Energy: the better knowledge of dimension and electronic structure of TiO2 will allow to improve the traceability of DSSC measurements. Health: the engineering of topographic and surface composition of TiO2 nanostructured coatings of orthopaedic and dental prostheses will support the design of rules for the production of devices exhibiting otpimized interfacial properties for a better and quicker integration of the implants in the hosting bone tissues.

Note

Total cost: EUR 5 668 729
EU contribution: EUR 4 349 462
Coordinated in: Italy
Ultimo aggiornamento: 05/07/2018 15:20
Location: https://www.chimica.unito.it/robots.html
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