Selective Recognition of Chloride by a 24‐Membered Macrocyclic Host with a Hydrophobic Methylenepyrene Substituent

A structure‐guided design, synthesis, and characterization of neutral unclosed cryptand functionalized with a bulky and hydrophobic 1‐methylene‐pyrene substituent is described. The host selectively binds spherical chloride (Cl–) over bigger and more basic carboxylates (MeCO2–, PhCO2–) and dihydrogen...

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Published in:European journal of organic chemistry 2020-08, Vol.2020 (29), p.4528-4533
Main Authors: Dąbrowa, Kajetan, Lindner, Marcin, Wasiłek, Sylwia, Jurczak, Janusz
Format: Article
Language:English
Subjects:
Anion recognition
anti‐Hofmeister anion selectivity
Carboxylates
Chloride selective
Chlorides
Hydrophobicity
Macrocyclic receptors
Unclosed cryptand
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cites cdi_FETCH-LOGICAL-c3172-4779e51e4047b3c8309c083a43b710dc3e04bb432fff62bbf62423720814ee303
container_end_page 4533
container_issue 29
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container_title European journal of organic chemistry
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creator Dąbrowa, Kajetan
Lindner, Marcin
Wasiłek, Sylwia
Jurczak, Janusz
description A structure‐guided design, synthesis, and characterization of neutral unclosed cryptand functionalized with a bulky and hydrophobic 1‐methylene‐pyrene substituent is described. The host selectively binds spherical chloride (Cl–) over bigger and more basic carboxylates (MeCO2–, PhCO2–) and dihydrogenphosphate (H2PO4–) in a competitive [D6]DMSO + 0.5 % H2O solvent mixture. The capture of chloride is accompanied by formation of sandwich‐type complex stabilized by π–π and CH–π interactions. Step‐wise addition of MeOH triggers release of the cargo in a controllable manner. Structure‐guided optimization of existing macrocyclic platform for anions allows synthesis of novel neutral receptor with extraordinary anti‐Hofmeister type selectivity for chloride. A drawing discloses X‐ray structure of the free receptor and its DFT‐calculated complex with chloride. The hydrophobic interactions are crucial for achieving selectivity for this spherical guest. The capture and release of cargo is controlled by the hydrogen‐bonding power of solvent in a controllable manner.
doi_str_mv 10.1002/ejoc.202000662
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source Wiley-Blackwell Read & Publish Collection
subjects Anion recognition
anti‐Hofmeister anion selectivity
Carboxylates
Chloride selective
Chlorides
Hydrophobicity
Macrocyclic receptors
Unclosed cryptand
title Selective Recognition of Chloride by a 24‐Membered Macrocyclic Host with a Hydrophobic Methylenepyrene Substituent
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