Serhii Krykun scite author profile

Serhii Krykun

2Publications

50Citation Statements Received

10Citation Statements Given

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Centre Interdisciplinaire de Nanoscience de Marseille, Taras Shevchenko National University of Kyiv, Institut des Sciences et Technologies Moléculaires d'Angers

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Metalla‐Assembled Electron‐Rich Tweezers: Redox‐Controlled Guest Release Through Supramolecular Dimerization

et al. 2019

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Developing methodologies for on‐demand control of the release of a molecular guest requires the rational design of stimuli‐responsive hosts with functional cavities. While a substantial number of responsive metallacages have already been described, the case of coordination‐tweezers has been less explored. Herein, we report the first example of a redox‐triggered guest release from a metalla‐assembled tweezer. This tweezer incorporates two redox‐active panels constructed from the electron‐rich 9‐(1,3‐dithiol‐2‐ylidene)fluorene unit that are facing each other. It dimerizes spontaneously in solution and the resulting interpenetrated supramolecular structure can dissociate in the presence of an electron‐poor planar unit, forming a 1:1 host–guest complex. This complex dissociates upon tweezer oxidation/dimerization, offering an original redox‐triggered molecular delivery pathway.

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Redox‐Driven Transformation of a Discrete Molecular Cage into an Infinite 3D Coordination Polymer

Szalóki

Krykun

Croué

et al. 2018

Chemistry A European J

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Two M L redox-active self-assembled cages constructed from an electron-rich ligand based on the extended tetrathiafulvalene framework (exTTF) and metal complexes with a linear geometry (Pd and Ag ) are depicted. Remarkably, based on a combination of specific structural and electronic features, the polycationic self-assembled Ag coordination cage undergoes a supramolecular transformation upon oxidation into a three-dimensional coordination polymer, that is characterized by X-ray crystallography. This redox-controlled change of the molecular organization results from the drastic conformational modifications accompanying oxidation of the exTTF moiety.

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Serhii Krykun

Metalla‐Assembled Electron‐Rich Tweezers: Redox‐Controlled Guest Release Through Supramolecular Dimerization

Redox‐Driven Transformation of a Discrete Molecular Cage into an Infinite 3D Coordination Polymer

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