about
Ln[DO3A-N-α-(pyrenebutanamido)propionate] complexes: optimized relaxivity and NIR optical properties.New calcium-selective smart contrast agents for magnetic resonance imaging.A bis(pyridine N-oxide) analogue of DOTA: relaxometric properties of the Gd(III) complex and efficient sensitization of visible and NIR-emitting lanthanide(III) cations including Pr(III) and Ho(III).Ga(3+)/Ln(3+) Metallacrowns: A Promising Family of Highly Luminescent Lanthanide Complexes That Covers Visible and Near-Infrared Domains.Synthesis and structural properties of lanthanide complexes formed with tropolonate ligands.Pyridine-based lanthanide complexes combining MRI and NIR luminescence activities.Isoquinoline-based lanthanide complexes: bright NIR optical probes and efficient MRI agents.Luminescence targeting and imaging using a nanoscale generation 3 dendrimer in an in vivo colorectal metastatic rat model.Lanthanide sensitization in II-VI semiconductor materials: a case study with terbium(III) and europium(III) in zinc sulfide nanoparticles.Lanthanide-to-lanthanide energy-transfer processes operating in discrete polynuclear complexes: can trivalent europium be used as a local structural probe?Optimizing sensitization processes in dinuclear luminescent lanthanide oligomers: selection of rigid aromatic spacers.Functionalized Triptycene-Derived Tripodal Ligands: Privileged Formation of Tetranuclear Cage Assemblies with Larger Ln(III).Brilliant Sm, Eu, Tb, and Dy chiral lanthanide complexes with strong circularly polarized luminescencePerfluorinated aromatic spacers for sensitizing europium(III) centers in dinuclear oligomers: better than the best by chemical design?Lanthanide near infrared imaging in living cells with Yb3+ nano metal organic frameworks.Hypoxia-regulated overexpression of soluble VEGFR2 controls angiogenesis and inhibits tumor growth.Highly emitting near-infrared lanthanide "encapsulated sandwich" metallacrown complexes with excitation shifted toward lower energy.LDI-glycerol polyurethane implants exhibit controlled release of DB-67 and anti-tumor activity in vitro against malignant gliomas.Near-infrared luminescent metallacrowns for combined in vitro cell fixation and counter staining.Polynuclear Sm(III) polyamidoamine-based dendrimer: a single probe for combined visible and near-infrared live-cell imaging.Simultaneous drug release at different rates from biodegradable polyurethane foams.Lanthanide-based, near-infrared luminescent and magnetic lipoparticles: monitoring particle integrity.Catalyst-dependent drug loading of LDI-glycerol polyurethane foams leads to differing controlled release profiles.Stable lanthanide luminescence agents highly emissive in aqueous solution: multidentate 2-hydroxyisophthalamide complexes of Sm(3+), Eu(3+), Tb(3+), Dy(3+).Polymetallic lanthanide complexes with PAMAM-naphthalimide dendritic ligands: luminescent lanthanide complexes formed in solution.Incorporation of ionic ligands accelerates drug release from LDI-glycerol polyurethanes.Endothelial precursor cell-based therapy to target the pathologic angiogenesis and compensate tumor hypoxia.Mono- and terfluorene oligomers as versatile sensitizers for the luminescent Eu3+ cation.Pyridine-based lanthanide complexes: towards bimodal agents operating as near infrared luminescent and MRI reporters.A Novel Salicylate-Based Macrobicycle with a "Split Personality"Azulene-moiety-based ligand for the efficient sensitization of four near-infrared luminescent lanthanide cations: Nd3+, Er3+, Tm3+, and Yb3+.A strategy to protect and sensitize near-infrared luminescent Nd3+ and Yb3+: organic tropolonate ligands for the sensitization of Ln(3+)-doped NaYF4 nanocrystals.Stability and Size-Discriminating Effects in Mononuclear Lanthanide Triple-Helical Building Blocks with Tridentate Aromatic Ligands.One-Step Assembly of Visible and Near-Infrared Emitting Metallacrown Dimers Using a Bifunctional Linker.Rare Earth pcu Metal-Organic Framework Platform Based on RE4(μ3-OH)4(COO)62+ Clusters: Rational Design, Directed Synthesis, and Deliberate Tuning of Excitation Wavelengths.Near-Infrared Optical Imaging of Necrotic Cells by Photostable Lanthanide-Based Metallacrowns.Exploring the ability of the nalidixate to sensitize visible and near-infrared emitting lanthanide(III) cations.N-Heterocyclic tridentate aromatic ligands bound to [Ln(hexafluoroacetylacetonate)3] units: thermodynamic, structural, and luminescent properties.Welcome to 'molecular probes in optical and magnetic resonance imaging'.Competition studies in horse spleen ferritin probed by a kinetically inert inhibitor, [Cr(TREN)(H(2)O)(OH)](2+), and a highly luminescent Tb(III) reagent.
P50
Q30716845-09B0E2F3-3DCB-403D-BE7D-E1A700C8F6A5Q30718946-36DCDEA7-0B47-499E-A596-FE58D28B31E7Q30853705-38B0233D-9E59-4C2F-9A0D-9BD182082F6DQ31063473-B32BDEF3-F57A-42AD-A053-51D2C5CEBE1BQ31118192-9A1519B3-84D8-4C26-A221-C7BDFD5A816BQ34115952-76AEF91E-BA74-4BBC-9650-FCD5CCEBB6C3Q34122923-0F8527C7-1ED5-4295-9D4B-EA319C315C72Q34539866-8E406BE1-FC18-45D5-A932-2B73A56FF3E2Q34700452-345592EE-CF17-42BD-87FB-7D073AEE091EQ35220515-4C3BC2FB-C145-4174-B720-A6D4BD51A74EQ35386087-7491B96C-3892-49F8-A738-437464E8F9DDQ36283913-E544B10E-AE95-4003-A2EE-8E7E59C253F9Q37109118-728CC8C0-F3B9-4F5C-A168-F01445ADA8D9Q37125814-52105FA4-0222-4FD1-8B70-844141392581Q37256129-4C4EB33F-0E19-4F70-8FDC-11E68D49CBFBQ37483716-46D4F118-3324-42A3-A57A-A78EC38E6F5DQ37701360-D729842E-9F91-47D5-9F88-38946E078E2AQ39987687-44585648-8468-45F5-94C8-1B555D0F46B9Q42134314-458B11A4-452F-49D7-A955-B95F4898E644Q42804838-0FEDC963-A833-4EDE-8FA0-DEBC16944A38Q43942398-2B2EF2BF-EDC6-4376-A736-F14495558698Q44041843-EF2FD240-E65D-45F1-B12D-2E54B490DEEAQ44104727-F2548B56-CEB0-42A1-B9A2-574CD63559E4Q44635008-762211AF-9377-4744-B52F-303083CFE7DAQ45188171-EC232944-4E33-45FF-9702-EB6557169ECAQ45324224-F9EC40E1-28E4-4BCB-971A-25DE318C4B03Q45880773-9A676FE6-F23A-49B4-9A1F-2C502ED21455Q45971442-4FE81771-F075-4A70-8EF5-E2909E5265ADQ46213298-761921AF-F7B4-4687-8062-51CAA6599403Q46511975-B7BD03E7-365B-4A5F-B999-474F785994F2Q46875958-48125E3A-7D2E-48B3-B4CA-D6D8D7F4FB23Q46906134-28265274-7791-448E-8AC5-237D9A4BDCE8Q47200278-1512774A-5308-4711-AFE2-FAE0B1A0B554Q47901460-5CC2FDDE-1ECD-4E68-B630-2AB198F56AD4Q48059618-F6BA7E3C-2624-44F9-A895-9C8FB9815D9CQ48278820-952489CF-C007-4C2A-983E-616FEDDFF395Q50210466-41C160DB-45C7-4593-8396-F5353A5A7DC8Q50511900-9EE3F4BF-6460-4DA5-9C2F-CE3D5B211F12Q51721032-D3AB2732-F77A-4460-ACEE-F47AAC059B99Q52548460-726DD6AA-0668-4EB5-BCBA-D576211897E1
P50
description
hulumtues
@sq
researcher
@en
ricercatore
@it
wetenschapper
@nl
հետազոտող
@hy
name
Stephané Petoud
@ast
Stephané Petoud
@en
Stephané Petoud
@es
Stephané Petoud
@nl
Stephané Petoud
@sl
type
label
Stephané Petoud
@ast
Stephané Petoud
@en
Stephané Petoud
@es
Stephané Petoud
@nl
Stephané Petoud
@sl
prefLabel
Stephané Petoud
@ast
Stephané Petoud
@en
Stephané Petoud
@es
Stephané Petoud
@nl
Stephané Petoud
@sl
P1053
D-2022-2012
P106
P21
P214
7502155044839572520008
P31
P3829
P496
0000-0003-4659-4505
P7859
viaf-7502155044839572520008