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miniaturized optical circulator based on a novel plasmonic-hybrid concept, within a recently granted European project CIRCULIGHT. Within the project, TU/e is responsible for the photonic platform development and
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integrated and miniaturized optical circulator based on a novel plasmonic-hybrid concept, within a recently granted European project CIRCULIGHT. Within the project, TU/e is responsible for the photonic
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numerically demonstrated in Cimphonie Team (C2N) in 2021 [3]. The principle, called magneto-biplasmonic, explores the TMOKE enhanced by both the surface plasmon polaritons and coupled modes system in a slot
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The proposed 2D photocatalysts are expect to change the traditional way of design artificial photocatalysts. Expected outcomes of this project include fabrication of soft 2D plasmonic photocatalyst
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the use of classical silver and gold nanocubes (known-how in the team), then moving towards the development of new plasmonic systems with structures that can be activated or modified by light, or even
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entirely composed of surface atoms. Examples of the properties include light-plasmon non-linearities and in particular the possibility of grating coupling to surface plasmon polaritons using a photoinduced
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PLN 3000 PLN per month (with possible extension to 48 months) financed from the NCN OPUS 25 Project No. 2023/49/B/ST4/01450 “Plasmonic nanoparticles decorated with fluorescently-labelled mRNA: using
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-month scholarship of PLN 2000 PLN per month (with possible extension to 48 months) financed from the NCN OPUS 25 Project No. 2023/49/B/ST4/01450 “Plasmonic nanoparticles decorated with fluorescently
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new class of optical probes for use in applications of catalysis and molecular recognition. Quantum confinement and plasmonic amplification in these luminescent objects allow one to simultaneously
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experiments: surface plasmon resonance, quartz microbalance, conventional fluorescence microscopy, etc... The Fresnel Institute develops adaptative microscopy techniques and super-resolution microscopy. In