Ditopic Covalent Cage for Ion‐Pair Binding: Influence of Anion Complexation on the Cation Exchange Rate

Ditopic Covalent Cage for Ion‐Pair Binding: Influence of Anion Complexation on the Cation Exchange Rate

A new hemicryptophane host with a ditopic molecular cavity combining a cyclotriveratrylene (CTV) unit with a tris‐urea moiety was synthesized. The complexation of halides, tetramethylammonium (TMA+) cation, and ion pairs was investigated. A positive cooperativity was observed, since halides display...

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Veröffentlicht in:ChemPlusChem (Weinheim, Germany) Germany), 2024-04, Vol.89 (4), p.e202300558-n/a
Hauptverfasser: Delecluse, Magalie, Manick, Anne‐Doriane, Chatelet, Bastien, Chevallier‐Michaud, Sabine, Moraleda, Delphine, Riggi, Innocenzo de, Dutasta, Jean‐Pierre, Martinez, Alexandre
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Anion exchanging
Binding
Cages
Cation exchange
Cation exchanging
Chemical Sciences
Complexation
covalent cages
Foreign exchange rates
Halides
hemicryptophane
Ion pairs
ion-pair recognition
kinetics of complexation
NMR
Nuclear magnetic resonance
Organic chemistry
Urea
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container_issue 4
container_start_page e202300558
container_title ChemPlusChem (Weinheim, Germany)
container_volume 89
creator Delecluse, Magalie
Manick, Anne‐Doriane
Chatelet, Bastien
Chevallier‐Michaud, Sabine
Moraleda, Delphine
Riggi, Innocenzo de
Dutasta, Jean‐Pierre
Martinez, Alexandre
description A new hemicryptophane host with a ditopic molecular cavity combining a cyclotriveratrylene (CTV) unit with a tris‐urea moiety was synthesized. The complexation of halides, tetramethylammonium (TMA+) cation, and ion pairs was investigated. A positive cooperativity was observed, since halides display a higher binding constant when a TMA+ cation is already present inside the cage. When TMA+ was complexed alone, a decrease of temperature from 298 K to 230 K was required to switch from a fast to a slow exchange regime on the NMR time scale. Nevertheless, the prior complexation of a halide guest in the lower part of the host resulted in significant decrease of the exchange rate of the subsequent complexation of the TMA+ cation. Under these conditions, the 1H NMR signals characteristic of a slow exchange regime were observed at 298 K. Addition of an excess of salts, increases the ionic strength of the solution, restoring the fast exchange dynamics. This result provides insight on how the exchange rate of a cation guest can be modulated by the complexation of a co‐guest anion. In the cage: A ditopic covalent cage capable of ion‐pair recognition was synthesized. Compared to other hemicryptophane parents, an improvement of the association constants and selectivities was observed. Moreover, the rate of exchange of the tetramethylammonium cation was found to be strongly affected by the prior complexation of a halide ion within the cavity.
doi_str_mv 10.1002/cplu.202300558
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The complexation of halides, tetramethylammonium (TMA+) cation, and ion pairs was investigated. A positive cooperativity was observed, since halides display a higher binding constant when a TMA+ cation is already present inside the cage. When TMA+ was complexed alone, a decrease of temperature from 298 K to 230 K was required to switch from a fast to a slow exchange regime on the NMR time scale. Nevertheless, the prior complexation of a halide guest in the lower part of the host resulted in significant decrease of the exchange rate of the subsequent complexation of the TMA+ cation. Under these conditions, the 1H NMR signals characteristic of a slow exchange regime were observed at 298 K. Addition of an excess of salts, increases the ionic strength of the solution, restoring the fast exchange dynamics. This result provides insight on how the exchange rate of a cation guest can be modulated by the complexation of a co‐guest anion. 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subjects Anion exchanging
Binding
Cages
Cation exchange
Cation exchanging
Chemical Sciences
Complexation
covalent cages
Foreign exchange rates
Halides
hemicryptophane
Ion pairs
ion-pair recognition
kinetics of complexation
NMR
Nuclear magnetic resonance
Organic chemistry
Urea
title Ditopic Covalent Cage for Ion‐Pair Binding: Influence of Anion Complexation on the Cation Exchange Rate
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