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Halide anion recognition by new acyclic quaternary polybipyridinium and polypyridinium receptors

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Halide anion recognition by new acyclic quaternary polybipyridinium and polypyridinium receptors. / Beer, Paul D.; Fletcher, Nicholas C.; Grieve, Alan et al.
In: Journal of the Chemical Society. Perkin Transactions 2, Vol. 8, 08.1996, p. 1545-1551.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Beer, PD, Fletcher, NC, Grieve, A, Wheeler, JW, Moore, CP & Wear, T 1996, 'Halide anion recognition by new acyclic quaternary polybipyridinium and polypyridinium receptors', Journal of the Chemical Society. Perkin Transactions 2, vol. 8, pp. 1545-1551. https://doi.org/10.1039/p29960001545

APA

Beer, P. D., Fletcher, N. C., Grieve, A., Wheeler, J. W., Moore, C. P., & Wear, T. (1996). Halide anion recognition by new acyclic quaternary polybipyridinium and polypyridinium receptors. Journal of the Chemical Society. Perkin Transactions 2, 8, 1545-1551. https://doi.org/10.1039/p29960001545

Vancouver

Beer PD, Fletcher NC, Grieve A, Wheeler JW, Moore CP, Wear T. Halide anion recognition by new acyclic quaternary polybipyridinium and polypyridinium receptors. Journal of the Chemical Society. Perkin Transactions 2. 1996 Aug;8:1545-1551. doi: 10.1039/p29960001545

Author

Beer, Paul D. ; Fletcher, Nicholas C. ; Grieve, Alan et al. / Halide anion recognition by new acyclic quaternary polybipyridinium and polypyridinium receptors. In: Journal of the Chemical Society. Perkin Transactions 2. 1996 ; Vol. 8. pp. 1545-1551.

Bibtex

@article{04091b12052c4da891f7412b9893767b,
title = "Halide anion recognition by new acyclic quaternary polybipyridinium and polypyridinium receptors",
abstract = "New acyclic quaternary polybipyridinium receptors containing 5,5′- and 4,4′-disubstituted N,N′-dimethyl-2,2′-bipyridinium moieties (L1-L6) and a polypyridinium receptor L 7 have been synthesised. 1H NMR titratlon studies in deuteriated DMSO show these receptors complex chloride and bromide anions, with a 1:1 stoichiometric ligand: chloride stability constant evaluations suggesting the amide containing polypyridinium receptor (L7) forms the most thermodynamically stable chloride anion complex. Square-wave voltammetric investigations showed some of the polypyridinium receptors to recognise electrochemically the chloride anion.",
author = "Beer, {Paul D.} and Fletcher, {Nicholas C.} and Alan Grieve and Wheeler, {John W.} and Moore, {Christopher P.} and Trevor Wear",
year = "1996",
month = aug,
doi = "10.1039/p29960001545",
language = "English",
volume = "8",
pages = "1545--1551",
journal = "Journal of the Chemical Society. Perkin Transactions 2",
issn = "0300-9580",
publisher = "Chemical Society",

}

RIS

TY - JOUR

T1 - Halide anion recognition by new acyclic quaternary polybipyridinium and polypyridinium receptors

AU - Beer, Paul D.

AU - Fletcher, Nicholas C.

AU - Grieve, Alan

AU - Wheeler, John W.

AU - Moore, Christopher P.

AU - Wear, Trevor

PY - 1996/8

Y1 - 1996/8

N2 - New acyclic quaternary polybipyridinium receptors containing 5,5′- and 4,4′-disubstituted N,N′-dimethyl-2,2′-bipyridinium moieties (L1-L6) and a polypyridinium receptor L 7 have been synthesised. 1H NMR titratlon studies in deuteriated DMSO show these receptors complex chloride and bromide anions, with a 1:1 stoichiometric ligand: chloride stability constant evaluations suggesting the amide containing polypyridinium receptor (L7) forms the most thermodynamically stable chloride anion complex. Square-wave voltammetric investigations showed some of the polypyridinium receptors to recognise electrochemically the chloride anion.

AB - New acyclic quaternary polybipyridinium receptors containing 5,5′- and 4,4′-disubstituted N,N′-dimethyl-2,2′-bipyridinium moieties (L1-L6) and a polypyridinium receptor L 7 have been synthesised. 1H NMR titratlon studies in deuteriated DMSO show these receptors complex chloride and bromide anions, with a 1:1 stoichiometric ligand: chloride stability constant evaluations suggesting the amide containing polypyridinium receptor (L7) forms the most thermodynamically stable chloride anion complex. Square-wave voltammetric investigations showed some of the polypyridinium receptors to recognise electrochemically the chloride anion.

U2 - 10.1039/p29960001545

DO - 10.1039/p29960001545

M3 - Journal article

AN - SCOPUS:0001248980

VL - 8

SP - 1545

EP - 1551

JO - Journal of the Chemical Society. Perkin Transactions 2

JF - Journal of the Chemical Society. Perkin Transactions 2

SN - 0300-9580

ER -