Active projects

  • ENSEMBLES3 Phase II - Centre of ExcelleNce for nanophotonicS, advancEd Materials and novel crystal growth-Based technoLogiEs

    The grand objective of the project is to create the Centre of Excellence ENSEMBLE3, which will focus on research excellence and innovation performance in the area of crystal growth-based technologies, novel functional materials with innovative electromagnetic properties, and applications in nanophotonics, optoelectronics and medicine.

  • PETER-Plasmon Enhanced Terahertz Electron Paramagnetic Resonance

    We propose to establish Plasmon -enhanced Terahertz Electron Paramagnetic Resonance spectroscopy and scanning microscopy as a unique Electron Paramagnetic Resonance (EPR) platform for high-sensitivity local analysis of paramagnetic organic and inorganic species and materials. Here, we will deliver novel hardware and infrastructure providing ground-breaking innovation in the magnetic sensing and imaging.

  • ENSEMBLES3 - Centre of ExcelleNce for nanophotonicS, advancEd Materials and novel crystal growth-Based technoLogiEs

    Within the project an extensive, detailed and robust Business Plan will be developed for setting-up of the Centre of Excellence ENSEMBLE3, with focus on the research excellence and innovation performance in the area of crystal growth-based technologies, novel functional materials with innovative electromagnetic properties, and applications in nanophotonics, optoelectronics, telecommunication, medicine, and photovoltaics.

  • SPM2.0- Scanning probe microscopies for nanoscale fast, tomographic and composition imaging

    Advanced Microscopy are widely recognized as one of the pillars onto which the research and manufacture of Nanotechnology based products is sustained. At present, the greatest challenge faced by these techniques is the realization of fast and non-destructive tomographic images with chemical composition sensitivity and with sub-10 nm spatial resolution, in both organic and inorganic materials, and in all environmental conditions.

  • SGPCM- Switching grapheme-plasmon with phase-change materials

    Graphene plasmons (GPs), is enable the transport and control of light on an extreme subwavelength scale as well as the dynamic tunability via electric-gate voltage, which can be exploited for numerous applications such as for strong light-matter interactions, tunable infrared biosensing and absorption spectroscopy, subwavelength optical imaging, as well as for the development of tunable transformation optics devices, metamaterials and metasurfaces.

  • Graphene Core1 - Graphene-based disruptive tecnologies

    This project is the second in the series of EC-financed parts of the Graphene Flagship. The Graphene Flagship is a 10 year research and innovation endeavour with a total project cost of 1,000,000,000 euros, funded jointly by the European Commission and member states and associated countries.