about
A highly luminescent tetramer from a weakly emitting monomer: acid- and redox-controlled multiple complexation by cucurbit[7]uril.Photoinduced reversible switching of porosity in molecular crystals based on star-shaped azobenzene tetramers.Forward (singlet-singlet) and backward (triplet-triplet) energy transfer in a dendrimer with peripheral naphthalene units and a benzophenone core.Uniform Functionalization of High-Quality Graphene with Platinum Nanoparticles for Electrocatalytic Water Reduction.Evaluation of phototoxicity of dendritic porphyrin-based phosphorescent oxygen probes: an in vitro study.Tailoring Colors by O Annulation of Polycyclic Aromatic Hydrocarbons.Hierarchical Growth of Supramolecular Structures Driven by Pimerization of Tetrahedrally Arranged Bipyridinium Units.Light-Harvesting Antennae Based on Silicon Nanocrystals.Azobenzene: A Photoactive Building Block for Supramolecular Architectures.Rigidification or interaction-induced phosphorescence of organic molecules.Molecular size and electronic structure combined effects on the electrogenerated chemiluminescence of sulfurated pyrene-cored dendrimers.Metal ion driven formation of a light-harvesting antenna investigated by sensitized luminescence and fluorescence anisotropy.Cyclam-cored dendrimers appended with four dendrons of two different types: intradendrimer energy transfer.Designing systems for a multiple use of light signals.A strongly emitting liquid-crystalline derivative of Y(3)N@C(80): bright and long-lived near-IR luminescence from a charge transfer state.Proton-driven self-assembled systems based on cyclam-cored dendrimers and [Ru(bpy)(CN)4]2-.Adducts between dansylated poly(propylene amine) dendrimers and anthracene clips mediated by Zn(II) ions: highly efficient photoinduced energy transfer.Dendrimers with a pentaphenylene core: a photophysical study.Polysulfurated pyrene-cored dendrimers: luminescent and electrochromic properties.Bright long-lived luminescence of silicon nanocrystals sensitized by two-photon absorbing antenna.Poly(3-hexylthiophene) Nanoparticles Containing Thiophene-S,S-dioxide: Tuning of Dimensions, Optical and Redox Properties, and Charge Separation under Illumination.Photoredox Catalysis: The Need to Elucidate the Photochemical Mechanism.Easy separation of Δ and Λ isomers of highly luminescent [Ir(III)]-cyclometalated complexes based on chiral phenol-oxazoline ancillary ligands.A multichromophoric dendrimer: from synthesis to energy up-conversion in a rigid matrix.A molecular clip throws new light on the complexes formed by a family of cyclam-cored dendrimers with Zn(II) ions. Efficient energy transfer in the heteroleptic complexes.First generation TREN dendrimers functionalized with naphthyl and/or dansyl units. Ground and excited state electronic interactions and protonation effects.A pentaporphyrin as a switching device activated by proton and redox stimuli.Light-harvesting antennae based on photoactive silicon nanocrystals functionalized with porphyrin chromophores.Light: A Very Peculiar Reactant and ProductSynthesis, characterization, and metal ion coordination of a multichromophoric highly luminescent polysulfurated pyreneLuminescent multi-terpyridine ligands: towards 2D polymer formation in solutionTurn-on phosphorescence by metal coordination to a multivalent terpyridine ligand: a new paradigm for luminescent sensorsOld molecules, new concepts: [Ru(bpy)(3)](2+) as a molecular encoder-decoderSynthesis of small gold nanoparticles: Au(I) disproportionation catalyzed by a persulfurated coronene dendrimerPhotoswitchable dendritic hosts: a dendrimer with peripheral azobenzene groupsMechanisms for fluorescence depolarization in dendrimersA cyclam core dendrimer containing dansyl and oligoethylene glycol chains in the branches: protonation and metal coordinationA photophysical study of terphenyl core oligosulfonimide dendrimers exhibiting high steady-state anisotropyRu2+ complexes comprising terpyridine ligands appended with terthiophene chromophores: energy transfer and energy reservoir effectTerthiophene Appended with Terpyridine Units as Receptors for Protons and Zn2+ Ions: Photoinduced Energy and Electron Transfer Processes
P50
Q30820039-58C399B2-2C12-409A-BE67-9CE30F14B655Q30982113-CA2FC6E4-144F-4B04-9AF0-44C2B2697C5BQ31109139-DCD019D6-BE42-4EAD-AEE7-B3D7C3D458A2Q35908401-87B4B08B-6271-48A9-B133-B5BBC81535FAQ36715624-DEFBC976-E3E2-4FC5-823A-7264A6BF7654Q37664174-5215703C-D0DF-4019-B992-71D8C3314A8BQ38927216-EEFBAE8A-347B-400C-97A3-9E23DD85834FQ38940378-4C8F1755-A505-489A-B22B-4219705DE8EFQ39068077-AE6475C0-0CB0-45F9-BB3B-A5F383EC9FEEQ39098359-270FE0F6-080F-4610-8155-C3A1C557C3C8Q41653033-45020D7B-DBC4-462B-9BEF-B9C92AB44A1EQ43003967-572782B5-1295-49DF-A436-13EFCF223ACEQ43030051-D70C029D-3B34-402F-B541-4A6A47D82383Q44832846-EA00CFB9-4437-4950-A89E-BB749FEB3362Q45063972-A8CB3A8E-AD41-451C-B0D8-7744E2B90B83Q45188271-91B2C5FE-5D80-4EDC-99C6-556749896309Q46089849-F449FB92-8688-4DF3-ADCB-A901C207B818Q46227234-4C7B2339-F33E-4247-B1F3-F190BCAD7AB5Q46322048-FAF0C26F-62FF-49BB-9994-66B13CCB682AQ47612126-62801140-20A5-4C22-BC6F-49E9F3F29926Q48048291-E354896A-FA7D-4DBA-9F1D-CC4F31A7CEB6Q48148406-8F3201DB-36D0-4334-B771-9717CCB95A3EQ50245646-7A0BBF4F-FF5E-4E41-9428-7C48BBE7CA54Q50267370-7D9EB49F-783F-4423-9AC1-FABF50D786E6Q50439368-3988CD6B-C840-4D58-9403-B680BEC75C1EQ50700100-54211E60-CFDB-47FC-B82D-9B4EF2E06CC4Q51343041-82AB7405-B3F8-42E3-9C24-AC8B21DEC176Q51710071-E6A7D423-8237-4BC7-B18F-B3EF91990FF4Q55871215-62F960E2-424B-4BFA-AF57-1F7D0E3CCF29Q56973273-CCFC8546-C2B4-4AF2-ABD0-0F76953C4565Q56973914-4C108087-5827-41AB-8048-B94E92CB3D1AQ56974650-9ACF9207-EC75-4CB7-916B-DCA9D10BD76BQ56991566-A26E12CD-085B-45F1-9727-427AE732096AQ56994336-49EA29EB-A2A7-4618-BF95-B15F000734E3Q56994520-E9A79A85-43A1-49B8-8C6C-6611793CBB9EQ56995077-A08C5893-ADB4-4403-B0AA-6908502003ADQ56996673-459EFB3B-5F31-4B8D-AD03-1D4DF785CA41Q56997282-76A127C0-A742-4BAB-9784-E0A14B476119Q57251604-76553028-5429-4ACD-9064-3CAB6616B6ECQ57251606-2D7BE206-69B5-4582-8255-6A761E79EAF2
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Giacomo Bergamini
@ast
Giacomo Bergamini
@en
Giacomo Bergamini
@es
Giacomo Bergamini
@nl
Giacomo Bergamini
@sl
type
label
Giacomo Bergamini
@ast
Giacomo Bergamini
@en
Giacomo Bergamini
@es
Giacomo Bergamini
@nl
Giacomo Bergamini
@sl
prefLabel
Giacomo Bergamini
@ast
Giacomo Bergamini
@en
Giacomo Bergamini
@es
Giacomo Bergamini
@nl
Giacomo Bergamini
@sl
P1053
C-7201-2012
P106
P21
P31
P3829
P496
0000-0002-2135-4073