Hydroxy Groups Enhance [2]Rotaxane Anion Binding Selectivity

Rosemary J. Goodwin; Andrew Docker; Hugo I. MacDermott-Opeskin; Heather M. Aitken; Megan L. O'Mara; Paul D. Beer; Nicholas G. White

doi:10.1002/chem.202200389

Hydroxy Groups Enhance [2]Rotaxane Anion Binding Selectivity

Rosemary J. Goodwin, Andrew Docker, Hugo I. MacDermott-Opeskin, Heather M. Aitken, Megan L. O'Mara, Paul D. Beer, Nicholas G. White^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

15 Citations (Scopus)

Abstract

We report the synthesis of two [2]rotaxanes containing an interlocked three dimensional binding cavity formed from a pyridinium bis(amide) axle component containing two phenol donors, and an isophthalamide based macrocycle. In the competitive solvent mixture 1 : 1 CDCl₃ : CD₃OD, one of the receptors exhibits a much higher selectivity preference for chloride than an analogous rotaxane without the hydroxy groups. X-ray crystal structures reveal the chloride anion guest encapsulated within the interlocked binding cavity, though not all of the hydrogen bond donors are utilised. Computational semi-empirical simulations indicate that secondary intermolecular interactions occur between the axle hydroxy hydrogen bond donors and the [2]rotaxane macrocycle components, contributing to a more preorganised binding pocket, which may be responsible for the observed enhanced selectivity.

Original language	English
Article number	e202200389
Journal	Chemistry - A European Journal
Volume	28
Issue number	28
DOIs	https://doi.org/10.1002/chem.202200389
Publication status	Published - 16 May 2022

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@article{eb0a2d3617af4a0ab395ffd8cf435bab,

title = "Hydroxy Groups Enhance [2]Rotaxane Anion Binding Selectivity",

abstract = "We report the synthesis of two [2]rotaxanes containing an interlocked three dimensional binding cavity formed from a pyridinium bis(amide) axle component containing two phenol donors, and an isophthalamide based macrocycle. In the competitive solvent mixture 1 : 1 CDCl3 : CD3OD, one of the receptors exhibits a much higher selectivity preference for chloride than an analogous rotaxane without the hydroxy groups. X-ray crystal structures reveal the chloride anion guest encapsulated within the interlocked binding cavity, though not all of the hydrogen bond donors are utilised. Computational semi-empirical simulations indicate that secondary intermolecular interactions occur between the axle hydroxy hydrogen bond donors and the [2]rotaxane macrocycle components, contributing to a more preorganised binding pocket, which may be responsible for the observed enhanced selectivity.",

keywords = "anions, hydroxy groups, molecular dynamics, preorganisation, rotaxanes",

author = "Goodwin, \{Rosemary J.\} and Andrew Docker and MacDermott-Opeskin, \{Hugo I.\} and Aitken, \{Heather M.\} and O'Mara, \{Megan L.\} and Beer, \{Paul D.\} and White, \{Nicholas G.\}",

note = "Publisher Copyright: {\textcopyright} 2022 The Authors. Chemistry - A European Journal published by Wiley-VCH GmbH.",

year = "2022",

month = may,

day = "16",

doi = "10.1002/chem.202200389",

language = "English",

volume = "28",

journal = "Chemistry - A European Journal",

issn = "0947-6539",

publisher = "Wiley-VCH Verlag GmbH",

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TY - JOUR

T1 - Hydroxy Groups Enhance [2]Rotaxane Anion Binding Selectivity

AU - Goodwin, Rosemary J.

AU - Docker, Andrew

AU - MacDermott-Opeskin, Hugo I.

AU - Aitken, Heather M.

AU - O'Mara, Megan L.

AU - Beer, Paul D.

AU - White, Nicholas G.

PY - 2022/5/16

Y1 - 2022/5/16

N2 - We report the synthesis of two [2]rotaxanes containing an interlocked three dimensional binding cavity formed from a pyridinium bis(amide) axle component containing two phenol donors, and an isophthalamide based macrocycle. In the competitive solvent mixture 1 : 1 CDCl3 : CD3OD, one of the receptors exhibits a much higher selectivity preference for chloride than an analogous rotaxane without the hydroxy groups. X-ray crystal structures reveal the chloride anion guest encapsulated within the interlocked binding cavity, though not all of the hydrogen bond donors are utilised. Computational semi-empirical simulations indicate that secondary intermolecular interactions occur between the axle hydroxy hydrogen bond donors and the [2]rotaxane macrocycle components, contributing to a more preorganised binding pocket, which may be responsible for the observed enhanced selectivity.

AB - We report the synthesis of two [2]rotaxanes containing an interlocked three dimensional binding cavity formed from a pyridinium bis(amide) axle component containing two phenol donors, and an isophthalamide based macrocycle. In the competitive solvent mixture 1 : 1 CDCl3 : CD3OD, one of the receptors exhibits a much higher selectivity preference for chloride than an analogous rotaxane without the hydroxy groups. X-ray crystal structures reveal the chloride anion guest encapsulated within the interlocked binding cavity, though not all of the hydrogen bond donors are utilised. Computational semi-empirical simulations indicate that secondary intermolecular interactions occur between the axle hydroxy hydrogen bond donors and the [2]rotaxane macrocycle components, contributing to a more preorganised binding pocket, which may be responsible for the observed enhanced selectivity.

KW - anions

KW - hydroxy groups

KW - molecular dynamics

KW - preorganisation

KW - rotaxanes

UR - https://www.scopus.com/pages/publications/85127808166

U2 - 10.1002/chem.202200389

DO - 10.1002/chem.202200389

M3 - Article

SN - 0947-6539

VL - 28

JO - Chemistry - A European Journal

JF - Chemistry - A European Journal

IS - 28

M1 - e202200389

ER -

Hydroxy Groups Enhance [2]Rotaxane Anion Binding Selectivity

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