Ligand Control of Supramolecular Chloride Photorelease

Supramolecular assembly is shown to provide control over excited-state chloride release. Two dicationic chromophores were designed with a ligand that recognizes halide ions in CH2Cl2 and a luminescent excited state whose dipole was directed toward, 1 2+ , or away, 2 2+ , from an associated chloride...

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Bibliographic Details
Published in:Inorganic chemistry 2018-05, Vol.57 (9), p.5624-5631
Main Authors: Turlington, Michael D, Troian-Gautier, Ludovic, Sampaio, Renato N, Beauvilliers, Evan E, Meyer, Gerald J
Format: Article
Language:English
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Summary:Supramolecular assembly is shown to provide control over excited-state chloride release. Two dicationic chromophores were designed with a ligand that recognizes halide ions in CH2Cl2 and a luminescent excited state whose dipole was directed toward, 1 2+ , or away, 2 2+ , from an associated chloride ion. The dipole orientation had little influence on the ground-state equilibrium constant, K eq ∼ 4 × 106 M–1, but induced a profound change in the excited-state equilibrium. Light excitation of [1 2+ ,Cl – ] + resulted in time-dependent shifts in the photoluminescence spectra with the appearance of biexponential kinetics consistent with the photorelease of Cl–. Remarkably, the excited-state equilibrium constant was lowered by a factor of 20 and resulted in nearly 45% dissociation of chloride. In contrast, light excitation of [2 2+ ,Cl – ] + revealed a 45-fold increase in the excited-state equilibrium constant. The data show that rational design and supramolecular assembly enables the detection and photorelease of chloride ions with the potential for future applications in biology and chemistry.
ISSN:0020-1669
1520-510X
DOI:10.1021/acs.inorgchem.8b00559