[EU | H2020] 2021–2025
eXtreme ultraviolet to soft-X-ray Photonic Integrated Circuits – X-PIC
eXtreme ultraviolet to soft-X-ray Photonic Integrated Circuits – X-PIC
Development of photonic integrated circuits operating in the XUV to soft-X-ray spectral range, exploiting high-harmonic generation sources.
Collaboration: Politecnico di Milano, Italy; CNR-IFN, Italy; Class 5 Photonics GmbH, Germany
Website: https://www.x-pic.eu/
[Bilateral | RO-FR]
Achieving Enhanced Collective Molecular Emission through their Coupling with Nano-structured Metallic Surfaces –SUMMON
Achieving Enhanced Collective Molecular Emission through their Coupling with Nano-structured Metallic Surfaces –SUMMON
Achieve enhanced collective molecular emission through the coupling with nano-structured metallic surfaces.
Collaboration: Centre de Recherche Paul Pascal, Univ. Bordeaux, CNRS, France
[Norway GRANT]
Nanostructured microfluidic analytical platform for dual SERS-electrochemical detection of emerging environmental pollutants –POLSENS
Nanostructured microfluidic analytical platform for dual SERS-electrochemical detection of emerging environmental pollutants –POLSENS
Develop sensing platforms to detect environmental pollutants by simultaneous optical spectroscopy and electrochemistry. A nanostructured plasmonic chip will be the core of the spectro-electrochemical sensor combining the highly specific and sensitive surface enhanced Raman spectroscopy (SERS) to the versatile, portable, and low costs electrochemical (EC) sensing. The dual SERS-EC sensing platform will be integrated in a microfluidic system.
Collaboration: SINTEF AS, Oslo, Norway; Iuliu Hatieganu University of Medicine and Pharmacy, Cluj-Napoca; NanoMems SRL, Rasnov, Romania
Website: https://www.itim-cj.ro/polsens/