Journal article

Chelating chloride using binuclear lanthanide complexes in water

Abstract:: Halide recognition by supramolecular receptors and coordination complexes in water is a long-standing challenge. In this work, we report chloride binding in water and in competing media by pre-organised binuclear kinetically inert lanthanide complexes, bridged by flexible –(CH₂)₂ – and –(CH₂)₃ – spacers, forming [Ln₂(DO3A)₂C-2] and [Ln₂(DO3A)₂C-3], respectively. These hydrophilic, neutral lanthanide coordination complexes are shown to bind chloride with apparent association constants of up to 105 M−1 in water and in buffered systems. Hydroxide bridging was observed in these complexes at basic pH, which was proven to be overcome by chloride. Thus, these lanthanide complexes show promise towards chloride recognition in biology and beyond. The results described here have clearly identified a new area of anion coordination chemistry that is ripe for detailed exploration.

Publication status:: Published

Peer review status:: Peer reviewed

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APA Style

Alexander, C., Thom, J. A., Kenwright, A. M., Christensen, K., Sørensen, T. J., & Faulkner, S. (2022). Chelating chloride using binuclear lanthanide complexes in water. Chemical Science, 14(5), 1194–1204.

MLA Style

Alexander, C., et al. “Chelating Chloride Using Binuclear Lanthanide Complexes in Water.” Chemical Science, vol. 14, no. 5, Royal Society of Chemistry, 2022, pp. 1194–204.

Chicago Style

Alexander, C, JA Thom, AM Kenwright, K Christensen, TJ Sørensen, and S Faulkner. 2022. “Chelating Chloride Using Binuclear Lanthanide Complexes in Water.” Chemical Science 14 (5): 1194–1204.
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Files:: Alexander_et_al_2022_Chelating_chloride_using.pdf

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Publisher copy:: 10.1039/d2sc05417e

Authors

+ Alexander, C More by this author

Institution:: University of Oxford
Role:: Author

+ Thom, JA More by this author

Institution:: University of Oxford
Role:: Author

+ Kenwright, AM More by this author

Role:: Author

+ Christensen, K More by this author

Institution:: University of Oxford
Role:: Author

+ Sørensen, TJ More by this author

Institution:: University of Oxford
Role:: Author

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Publisher:: Royal Society of Chemistry
Journal:: Chemical Science More from this journal
Volume:: 14
Issue:: 5
Pages:: 1194–1204
Publication date:: 2022-12-27
Acceptance date:: 2022-12-27
DOI:: 10.1039/d2sc05417e
EISSN:: 2041-6539
ISSN:: 2041-6520

Language:: English
Keywords:: FFR
Pubs id:: 1317359
Local pid:: pubs:1317359
Deposit date:: 2022-12-27

Terms of use

Copyright holder:: Alexander et al.
Copyright date:: 2023
Rights statement:: © 2023 The Author(s). Published by the Royal Society of Chemistry. This article is open access licensed under a Creative Commons Attribution 3.0 Unported Licence.

Licence:: CC Attribution (CC BY)

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