Abstract: A method for detecting nano- and micro-plastics in an aqueous sample suspected of being polluted with nano- or micro-plastics is provided. The method is based on interaction of the nano- and micro-plastics with hyaluronic acid functionalized with a luminescent or fluorescent dye. The luminescent or fluorescent dye is Rhodamine B or the metallorganic complex Ru(bpy)32+.

Abstract: The present invention relates to silica nanoparticles comprising at least two dyes. Said dyes have a respective relationship of donor-acceptor couple in an energy transfer process and have a molar absorption coefficient ?10,000 M?1 cm?1 for the considered spectral region, a fluorescence quantum yield ?0.01, good overlap integral, according to the Förster theory, between said donor and said acceptor dye; said active compounds may be lipophilic or may present a functionality useful for the introduction of a trialkoxysilane moiety. The dyes provide an efficient energy transfer process. Said nanoparticles are useful as probes in the field of medicine, in particular therapy and diagnostics, more particularly in theranostics, and in the field of analytical chemistry.

Abstract: Nanoparticles, which are luminescent and/or electroactive and/or suitable for MRI (magnetic resonance imaging and/or PET (positron emission tomography) applications, comprise a micelle, which has a hydrophilic shell and an hydrophobic central portion, and a polysilicate core; the micelle comprises a plurality of molecules of a functionalized surfactant having the following structure: M1-Hydro1-Lipo-Hydro2-M2 wherein Lipo indicates a hydrophobic chain; Hydro1 ed Hydro2 indicate, each, a respective hydrophilic chain; M1 ed M2 represent respective recognition functionalities.

Abstract: The present invention relates to silica nanoparticles comprising at least two dyes. Said dyes have a respective relationship of donor-acceptor couple in an energy transfer process and have a molar absorption coefficient ?10,000 M?1 cm?1 for the considered spectral region, a fluorescence quantum yield ?0.01, good overlap integral, according to the Förster theory, between said donor and said acceptor dye; said active compounds may be lipophilic or may present a functionality useful for the introduction of a trialkoxysilane moiety. The dyes provide an efficient energy transfer process. Said nanoparticles are useful as probes in the field of medicine, in particular therapy and diagnostics, more particularly in theranostics, and in the field of analytical chemistry.

Abstract: Use for measuring temperatures of a coordination complex presenting formula I, wherein M1, M2, M3, M4, M5 are chosen, each independently of the others, in the group consisting of: CuI, AgI, AuI, PdII; n is equal to the sum of the oxidation states of M1, M2, M3, M4, M5 minus 3; II represents a respective portion of each tridentate ligand having the formula III in which R1 is chosen in the group consisting of: Ph, C1-C4 alkyl, halo-alkyl C1-C4 substituted phenyl; R2 is chosen in the group consisting of: Ph, C1-C4 alkyl, C1-C4 halo-alkyl-, substituted phenyl; R3 is chosen in the group consisting of: C3-C18 alkyl, benzyl, substituted benzyl, C1-C20 hydroxy-alkyl, C1-C20 alkoxy silane.

Abstract: Nanoparticles, which are luminescent and/or electroactive and/or suitable for MRI (magnetic resonance imaging and/or PET (positron emission tomography) applications, comprise a micelle, which has a hydrophilic shell and an hydrophobic central portion, and a polysilicate core; the micelle comprises a plurality of molecules of a functionalized surfactant having the following structure: M1-Hydro1-Lipo-Hydro2-M2 wherein Lipo indicates a hydrophobic chain; Hydro1 ed Hydro2 indicate, each, a respective hydrophilic chain; M1 ed M2 represent respective recognition functionalities.

Abstract: Luminescent and/or electroactive nanoparticles suitable for MRI (Magnetic Resonance Imaging) and/or PET (Positron Emission Tomography) are prepared by mixing luminescent or electroactive compounds and ethyl oxide/propyl oxide block-copolymers in an organic solvent, which is thereafter evaporated in order to obtain a residue; and by hydrolyzing-condensating tetraalkoxysilanes in an aqueous solution in the presence of the residue; the obtained nanoparticles show no or a negligible release of the luminescent or electroactive compounds and are useful for bio-analytic and bio-medic applications.