Her main research concerns Photochemistry, Dendrimer, Molecule, Luminescence and Excited state. Her studies deal with areas such as Supramolecular chemistry, Protonation and Metal as well as Photochemistry. Her Dendrimer study incorporates themes from Ion, Metal ions in aqueous solution, Tertiary amine and Amine gas treating.
Her Molecule study combines topics in areas such as Crystallography, Nanotechnology and Phosphorescence. Her Luminescence research incorporates themes from Absorption band, Excimer, Ligand and Chloromethane. Her Excited state research integrates issues from Quantum chemistry and Quantum yield.
Her scientific interests lie mostly in Photochemistry, Dendrimer, Luminescence, Chromophore and Molecule. Paola Ceroni studies Electron transfer, a branch of Photochemistry. Her research on Dendrimer also deals with topics like
Her Luminescence research includes themes of Crystallography, Ligand, Quantum dot and Lanthanide. Her work carried out in the field of Chromophore brings together such families of science as Quantum yield and Pyrene. Her work on Supramolecular chemistry as part of general Molecule study is frequently linked to Eosin, bridging the gap between disciplines.
Photochemistry, Nanotechnology, Luminescence, Chromophore and Molecule are her primary areas of study. Specifically, her work in Photochemistry is concerned with the study of Electron transfer. Her work on Silicon nanostructures, Biosensor and Silicon quantum dots as part of general Nanotechnology study is frequently connected to Electrochemiluminescence and Dual, therefore bridging the gap between diverse disciplines of science and establishing a new relationship between them.
Paola Ceroni interconnects Quantum dot and Lanthanide in the investigation of issues within Luminescence. Her work in Chromophore tackles topics such as Two-photon absorption which are related to areas like Thiophene, Polarizable continuum model, Intermediate state, Density functional theory and Two-photon excitation microscopy. The concepts of her Molecule study are interwoven with issues in Self-assembly, Amphiphile and Intramolecular force.
Her primary areas of study are Photochemistry, Photocatalysis, Nanotechnology, Phosphorescence and Metal. Her research in Photochemistry is mostly focused on Chromophore. As a part of the same scientific family, Paola Ceroni mostly works in the field of Chromophore, focusing on Nanoparticle and, on occasion, Luminescence.
In her research on the topic of Photocatalysis, Triplet triplet annihilation, Photosensitizer and Electron paramagnetic resonance is strongly related with Electron transfer. Her Nanotechnology study integrates concerns from other disciplines, such as BODIPY and Photoluminescence. Her study looks at the intersection of Phosphorescence and topics like Organic molecules with Quenching, Crystallization, Fluid solution and Polymeric matrix.
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Ru(II)-bipyridine Complexes in Supramolecular Systems, Devices and Machines
Vincenzo Balzani;Giacomo Bergamini;Filippo Marchioni;Paola Ceroni.
Coordination Chemistry Reviews (2006)
Dendrimers based on photoactive metal complexes. Recent advances
Vincenzo Balzani;Paola Ceroni;Alberto Juris;Margherita Venturi.
Coordination Chemistry Reviews (2001)
Photochemistry and Photophysics: Concepts, Research, Applications
Vincenzo Balzani;Paola Ceroni;Alberto Juris.
Luminescent lanthanide ions hosted in a fluorescent polylysin dendrimer. Antenna-like sensitization of visible and near-infrared emission.
Veronica Vicinelli;Paola Ceroni;Mauro Maestri;Vincenzo Balzani.
Journal of the American Chemical Society (2002)
Rigidification or interaction-induced phosphorescence of organic molecules
Massimo Baroncini;Giacomo Bergamini;Paola Ceroni.
Chemical Communications (2017)
Light-harvesting dendrimers: efficient intra- and intermolecular energy-transfer processes in a species containing 65 chromophoric groups of four different types.
Uwe Hahn;Marius Gorka;Fritz Vögtle;Veronica Vicinelli.
Angewandte Chemie (2002)
Vincenzo Balzani;Paola Ceroni;Mauro Maestri;Veronica Vicinelli.
Current Opinion in Chemical Biology (2003)
Photoinduced reversible switching of porosity in molecular crystals based on star-shaped azobenzene tetramers
Massimo Baroncini;Simone d'Agostino;Giacomo Bergamini;Paola Ceroni.
Nature Chemistry (2015)
Turn-on Phosphorescence by Metal Coordination to a Multivalent Terpyridine Ligand: A New Paradigm for Luminescent Sensors
Andrea Fermi;Giacomo Bergamini;Myriam Roy;Marc Gingras.
Journal of the American Chemical Society (2014)
Dendrimers as fluorescent sensors with signal amplification
Vincenzo Balzani;Paola Ceroni;Sven Gestermann;Christopher Kauffmann.
Chemical Communications (2000)
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