Issue 26, 2015

The selectivity of water-based pyrophosphate recognition is tuned by metal substitution in dimetallic receptors

Abstract

The three dimetallic compounds [Ga2(bpbp)(OH)2(H2O)2](ClO4)3, [In2(bpbp)(CH3CO2)2](ClO4)3 and [Zn2(bpbp)(HCO2)2](ClO4) (bpbp = 2,6-bis((N,N′-bis(2-picolyl)amino)methyl)-4-tertbutylphenolate) were evaluated as stable solid state precursors for reactive solution state receptors to use for the recognition of the biologically important anion pyrophosphate in water at neutral pH. Indicator displacement assays using in situ generated complex-pyrocatechol violet adducts, {M2(bpbp)(HxPV)}n+ M = Ga3+, In3+, Zn2+, were tested for selectivity in their reactions with a series of common anions: pyrophosphate, phosphate, ATP, arsenate, nitrate, perchlorate, chloride, sulfate, formate, carbonate and acetate. The receptor employing Ga3+ showed a slow but visually detectable response (blue to yellow) in the presence of one equivalent of pyrophosphate but no response to any other anion, even when they were present in much higher concentrations. The systems based on In3+ or Zn2+ show less selectivity in accord with visibly discernible responses to several of the anions. These results demonstrate a facile method for increasing anion selectivity without modification of an organic dinucleating ligand scaffold. The comfortable supramolecular recognition of pyrophosphate by the dimetallic complexes is demonstrated by the single crystal X-ray structure of [Ga2(bpbp)(HP2O7)](ClO4)2 in which the pyrophosphate is coordinated to the two gallium ions via four of its oxygen atoms.

Graphical abstract: The selectivity of water-based pyrophosphate recognition is tuned by metal substitution in dimetallic receptors

Supplementary files

Article information

Article type
Paper
Submitted
18 Feb 2015
Accepted
28 May 2015
First published
09 Jun 2015

Dalton Trans., 2015,44, 11877-11886

Author version available

The selectivity of water-based pyrophosphate recognition is tuned by metal substitution in dimetallic receptors

S. Svane, F. Kjeldsen, V. McKee and C. J. McKenzie, Dalton Trans., 2015, 44, 11877 DOI: 10.1039/C5DT00729A

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