Orsola Baydoun scite author profile

Orsola Baydoun

3Publications

33Citation Statements Received

545Citation Statements Given

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Laboratoire de Chimie, Claude Bernard University Lyon 1, École Normale Supérieure de Lyon

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Enantiopure cryptophane derivatives: Synthesis and chiroptical properties

Baydoun

Buffeteau

2021

Chirality

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This review addresses the synthesis of enantiopure cryptophane and the study of their chiroptical properties. Cryptophane derivatives represent an important class of macrocyclic compounds that can bind a large range of species in solution under different conditions. The overwhelming majority of these host molecules is chiral, and their chiroptical properties have been thoroughly investigated. The first part of this review is dedicated to the optical resolution and the synthesis of enantiopure cryptophane derivatives. In a second part, the study of the chiroptical properties of these molecular hosts by different techniques such as electronic and vibrational circular dichroism and Raman optical activity is detailed. These techniques allow the determination of the absolute configuration of cryptophane derivatives and provide useful information about their conformation in different conditions.

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Ni-Centered Coordination-Induced Spin-State Switching Triggered by Electrical Stimulation

et al. 2022

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We herein report the synthesis and magnetic properties of a Ni(II)-porphyrin tethered to an imidazole ligand through a flexible electron-responsive mechanical hinge. The latter is capable of undergoing a large amplitude and fully reversible folding motion under the effect of electrical stimulation. This redox-triggered movement is exploited to force the axial coordination of the appended imidazole ligand onto the square-planar Ni(II) center, resulting in a change in its spin state from low spin (S = 0) to high spin (S = 1) proceeding with an 80% switching efficiency. The driving force of this reversible folding motion is the π-dimerization between two electrogenerated viologen cation radicals. The folding motion and the associated spin state switching are demonstrated on the grounds of NMR, (spectro)electrochemical, and magnetic data supported by quantum calculations.

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Chiroptical study of cryptophanes subjected to self‐encapsulation

et al. 2019

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In 1,1,2,2‐tetrachloroethane‐d2, the 129Xe NMR spectrum of the Xe@cryptophane‐223 complex bearing seven acetate groups (Xe@1 complex) shows an unusually broad signal compared with that of its congeners (Chapellet, LL. et al. J. Org. Chem. 2015;80:6143–6151). To interpret this unexpected behaviour, a 1H NMR analysis and a thorough study of the chiroptical properties of 1 as a function of the nature of the solvent have been performed. The 1H NMR spectra of 1 reveal that a self‐encapsulation phenomenon takes place in DMSO‐d6 and 1,1,2,2‐tetrachloroethane‐d2 solvents. Thanks to the separation of the two enantiomers of 1 by HPLC on chiral stationary phase, the two enantiomers of 1 have been studied in detail by polarimetry, electronic (ECD), and vibrational (VCD) circular dichroism spectroscopies. Except for ECD spectroscopy, these chiroptical techniques reveal spectroscopic changes as a function of the nature of the solvent. For instance, in DMSO and 1,1,2,2‐tetrachloroethane, in which the self‐encapsulation phenomenon takes place, the sign of the specific optical rotation of [CD(−)254]‐1 and [CD(+)254]‐1 is changed. These results have then been compared with those obtained with cryptophane‐223 bearing only one acetate group on the propylenedioxy linker (compound 2) and with cryptophane‐223 bearing six acetate groups (compound 3). A self‐encapsulation phenomenon is also observed with compound 2. Finally, compounds 2 and 3 show different chiroptical properties compared with those obtained with the two enantiomers of compound 1.

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Orsola Baydoun

Enantiopure cryptophane derivatives: Synthesis and chiroptical properties

Ni-Centered Coordination-Induced Spin-State Switching Triggered by Electrical Stimulation

Chiroptical study of cryptophanes subjected to self‐encapsulation

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