Your search keyword '"Chambron, Jean‐Claude"' showing total 9 results

1. Combining Desferriferrioxamine B and 1-Hydroxy-2-Piperidone ((PIPO)H) to Chelate Zirconium. Solution Structure of a Model Complex of the [ 89 Zr]Zr-DFOcyclo*-mAb Radioimmunoconjugate.

Author

Mangin F, Fonquernie O, Jewula P, Brandès S, Penouilh MJ, Bonnin Q, Vincent B, Espinosa E, Aubert E, Meyer M, and Chambron JC

Abstract

89 Zr-immunoPET is a hot topic as 89 Zr cumulates the advantages of 64 Cu and 124 I without their drawbacks. We report the synthesis of a model ligand of a chiral bioconjugable tetrahydroxamic chelator combining the desferriferrioxamine B siderophore and 1-hydroxy-2-piperidone ((PIPO)H), a chiral cyclic hydroxamic acid derivative, and the study by NMR spectroscopy of its zirconium complex. Nuclear Overhauser effect measurements (ROESY) indicated that the complex exists in the form of two diastereomers, in 77 : 23 ratio, resulting from the combination of the central chiralities at the 3-C of the (PIPO)H component and at the Zr 4+ cation. The 44 lowest energy structures out of more than 1000 configurations/conformations returned by calculations based on density functional theory were examined. Comparison of the ROESY data and the calculated interatomic H⋅⋅⋅H distances allowed us to select the most probable configuration and conformations of the major complex., (© 2024 The Authors. ChemPlusChem published by Wiley-VCH GmbH.)

Published

2024

2. Expanded Mercaptocalixarenes: A New Kind of Macrocyclic Ligands for Stabilization of Polynuclear Thiolate Clusters.

Author

Schleife F, Bonnot C, Chambron JC, Börner M, and Kersting B

Subjects

Crystallography, X-Ray, Cyclization, Ligands, Molecular Conformation, Calixarenes

Abstract

The syntheses and properties of expanded 4-tert-butyl-mercaptocalix[4]arenes, in which the methylene linkers are replaced by -CH 2 NRCH 2 - or -CH 2 NRCH 2 - and -CH 2 NRCH 2 CH 2 CH 2 NRCH 2 - units, are described. The new macrocycles were obtained in a step-wise manner, utilizing fully protected, i. e. S-alkylated, derivatives of the oxidation-sensitive thiophenols in the cyclisation steps. Reductive cleavage of the macrobicyclic or macrotricyclic intermediates (6, 7, 11) afforded the free thiophenols (H 4 8, H 4 9, and H 4 12) in preparative yields as their hydrochloride salts. The protected proligands can exist in two conformations, resembling the "cone" and "1,3-alternate" conformations found for the parent calix[4]arenes. The free macrocycles do not show conformational isomerism, but are readily oxidized forming intramolecular disulfide linkages. Preliminary complexation experiments show that these expanded mercaptocalixarenes can serve as supporting ligands for tetranuclear thiolato clusters., (© 2022 The Authors. Chemistry - A European Journal published by Wiley-VCH GmbH.)

Published

2022

3. Alkynylgold(I) C 3 -Chiral Concave Complexes: Aggregation and Luminescence.

Author

Zhang J, Schaly A, Chambron JC, Vincent B, Zorn N, Leize-Wagner E, Jean M, and Vanthuyne N

Subjects

Fluorescence, Ligands, Solvents, Gold, Luminescence

Abstract

Chiral gold(I) acetylide trinuclear complexes 1-3 based on the cyclotribenzylene platform and terminal PR 3 ligands (R=Ph, Et, and Cy, respectively), were characterized and their light emission studied. They exhibited long-lived blue phosphorescence in CHCl 3 and a weak fluorescence in the UV. In MeOH/CHCl 3 mixtures of >1:1 volume ratio, 1 and 2 exhibited a new emission band at ca. 540 nm that developed at the expense of the UV emission. DLS studies demonstrated the presence of molecular aggregates of Ø 30-80 nm. The green emission observed in MeOH-rich solvent mixtures was therefore induced by aggregation, and could originate from Au⋅⋅⋅Au interactions. The AIE spectrum of 3 was observed only in solutions containing 99 % of MeOH, and correlated with its solid state emission. The AIE profiles of the enantiomers of 1 differed from that of rac-1, suggesting that the latter is a true racemate., (© 2021 Wiley-VCH GmbH.)

Published

2022

4. Supramolecular chemical sensors based on pyrene monomer-excimer dual luminescence.

Author

Karuppannan S and Chambron JC

Subjects

Diphosphates chemistry, Fluorescent Dyes chemistry, Imidazoles chemistry, Oligonucleotides chemistry, Potassium chemistry, gamma-Cyclodextrins chemistry, Pyrenes chemistry

Abstract

The past ten years have seen a spectacular development of chemical sensors based on the monomer-excimer dual luminescence of aromatic systems, such as pyrene. Either in the form of integrated or multicomponent molecular devices these chemosensors have been attracting a high interest above all because of their unique ratiometric properties. This review will focus on the latter systems, which can be classified into two classes: Firstly, the assembly of receptor-effector conjugates is triggerred by the analyte of interest. As a result, the sensor shows monomer to excimer fluorescence switching upon substrate binding. Secondly, the supramolecular assembly that constitutes the sensor is perturbed by interaction with the analyte. This induces a conformational change or the exchange of a component of the system, which is the cause of the luminescence switch effect., (Copyright © 2011 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2011

5. Kinetic control in the chiral recognition of three-bladed propellers.

Author

Bonnot C, Aubert E, Banerji N, Lacour J, Espinosa E, and Chambron JC

Abstract

The ion pair of the stereolabile C(3)-symmetric, i(+)o proton complex [1H](+) of diaza-macropentacycle 1 and the configurationally stable Delta-TRISPHAT ([Delta-3](-)) anion exists in the form of two diastereomers, namely, [Delta-(1.H)][Delta-3] and [Lambda-(1.H)][Delta-3], the ratio of which, in terms of diastereomeric excess (de) decreases in the order [D(8)]THF (28%)>CD(2)Cl(2) (22%)>CDCl(3) (20%)>[D(8)]toluene (16%)>C(6)D(6) (7%)>[D(6)]acetone (0%) at thermodynamic equilibrium. Except in the case of [D(6)]acetone, the latter is reached after a period of time that increases from 1 h ([D(8)]THF) to 24 h (CDCl(3)). Moreover, the initial value of the de of [1.H][Delta-3] in CDCl(3), before the thermodynamic equilibrium is reached, depends on the solvent in which the sample has been previously equilibrated (sample "history"). This property has been used to show that the crystals of [1.H][Delta-3] formed by slow evaporation of CH(2)Cl(2)/CH(3)OH mixtures had 100% de, which indicates that [1.H][Delta-3] has enjoyed a crystallization-induced asymmetric transformation. Structural studies in solution (NMR spectroscopy) and in the gas phase by calculations at the semiempirical PM6 level of theory suggest that the optically active anion is docked on the i(+) (endo) external side of the proton complex such that one of the aromatic rings of [Delta-3](-) is inserted into a groove of [1.H](+), a second aromatic ring being placed astride the outside i(+) pocket. Solvent polarity controls the thermodynamics of inversion of the [1.H](+) propeller. However, both polarity and basicity control its kinetics. Therefore, the rate-limiting steps correspond to the ion-pair separation/recombination and [1.H](+)/1 deprotonation/protonation processes, rather than the inversion of [1H](+), the latter being likely to take place in the deprotonated form (1).

Published

2010

6. Photoinduced electron transfer in multiporphyrinic interlocked structures: the effect of copper(I) coordination in the central site.

Author

Flamigni L, Talarico AM, Chambron JC, Heitz V, Linke M, Fujita N, and Sauvage JP

Subjects

Electron Transport, Energy Transfer, Molecular Conformation, Photochemistry, Rotaxanes chemistry, Spectrophotometry methods, Copper chemistry, Electrons, Gold chemistry, Metalloporphyrins chemistry, Zinc chemistry

Abstract

Photoinduced processes have been determined in a [2]catenane containing a zinc(II) porphyrin, a gold(III) porphyrin, and two free phenanthroline binding sites, Zn-Au(+), and in the corresponding copper(I) phenanthroline complex, Zn-Cu(+)-Au(+). In acetonitrile solution Zn-Au(+) is present in two different conformations: an extended one, L, which accounts for 40 % of the total, and a compact one, S. In the L conformation, the electron transfer from the excited state of the Zn porphyrin to the gold-porphyrin unit (k = 1.3x10(9) s(-1)) is followed by a slow recombination (k = 8.3x10(7) s(-1)) to the ground state. The processes in the S conformation cannot be clearly resolved but a charge-separated (CS) state is rapidly formed and decays with a lifetime on the order of fifty picoseconds. In the catenate Zn-Cu(+)-Au(+), the zinc-porphyrin excited state initially transfers energy to the Cu(I)-phenantholine unit, producing a metal-to-ligand charge-transfer (MLCT) excited state localized on the copper complex with a rate k = 1.4x10(9) s(-1). From this excited state the transfer of an electron to the gold-porphyrin unit takes place, producing the CS state Zn-Cu(2+)-Au(.), which decays with a lifetime of 10 ns. The results are discussed in comparison with the closely related [2]rotaxane, in which a further charge shift from the copper center to the zinc-porphyrin unit leads to the fully CS state. Even in the absence of such full charge separation, it is shown that the lifetimes of the CS states are increased by a factor of about 2-2.5 over those of the corresponding rotaxanes.

Published

2004

7. A functionalized noncovalent macrocyclic multiporphyrin assembly from a dizinc(II) bis-porphyrin receptor and a free-base dipyridylporphyrin.

Author

Iengo E, Zangrando E, Alessio E, Chambron JC, Heitz V, Flamigni L, and Sauvage JP

Subjects

Crystallography, X-Ray, Macromolecular Substances chemical synthesis, Macromolecular Substances chemistry, Mass Spectrometry, Metalloporphyrins chemistry, Models, Chemical, Spectrophotometry, Ultraviolet, Metalloporphyrins chemical synthesis, Zinc chemistry

Abstract

The bis-porphyrin system ZnP(2), in which two zinc porphyrins are connected by a phenanthroline linker in an oblique fashion, acts as a bifunctional receptor towards the complexation of free-base meso-5,10-bis(4'-pyridyl)-15,20-diphenylporphyrin (4'-cis DPyP). In solution, NMR spectroscopy evidenced quantitative formation of the tris-porphyrin macrocyclic assembly ZnP(2)(4'-cis DPyP), in which the two fragments are held together by two axial 4'-N(pyridyl)-Zn interactions. The remarkable stability of the edifice (an association constant of about 6x10(8) M(-1) was determined by UV/Vis absorption and emission titration experiments in toluene) is due to the almost perfect geometrical match between the two interacting units. The macrocycle was crystallized and studied by X-ray diffraction, which confirmed the excellent complementarity of the two components. Photoinduced energy transfer from the singlet excited state of the zinc porphyrin chromophores to the free-base porphyrin occurs with an efficiency of 98 % (k(en)=2x10(10) s(-1) in toluene, ambient temperature) with a mechanism consistent with a dipole-dipole process with a low orientation factor.

Published

2003

8. Templated synthesis of a rotaxane with a [Ru(diimine)3]2+ core.

Author

Pomeranc D, Jouvenot D, Chambron JC, Collin JP, Heitz V, and Sauvage JP

Abstract

A rotaxane containing a ruthenium bisphenanthroline complex, acting as an axis, and a macrocycle incorporating a 2,2'-bipyridine (bpy) unit, threaded by the axis, has been synthesized. The bisphenanthroline ligand is such that its ruthenium(II) complexes possess a clearly identified axis, making such compounds ideal components of rotaxanes constructed around an octahedral ruthenium(II) center, which serves as a template. The ring is threaded by the axial ruthenium(II) precursor complex, to afford the corresponding pseudorotaxane in moderate yield. The X-ray structure analysis of this compound reveals the threaded nature of the complex. The length of the threaded ring (35 atoms in the periphery) is too short to allow easy threading of the axis through the macrocycle. As a consequence, an isomer is also obtained for which the axial ruthenium complex is attached in an exo fashion. (1)H NMR studies have been carried out, which reveal various conformational equilibria for the pseudorotaxane. Light-induced decoordination of the bpy-containing cyclic fragment was shown to be quantitative and to lead to the free ring and the axial ruthenium(II) complex, regardless of the starting compound (pseudorotaxane or exo isomer). Finally, the real rotaxane could be prepared, although it could not be separated from its exo isomer.

Published

2003

9. Ion-pair-mediated asymmetric synthesis of a configurationally stable mononuclear tris(diimine)-iron(II) complex.

Author

Monchaud D, Jodry JJ, Pomeranc D, Heitz V, Chambron JC, Sauvage JP, and Lacour J

Published

2002