Complementary synthetic strategies leading to the six possible regioisomers and conformational isomers of bis[(α-picolyl)oxy]-p-tert-butylcalix[4]crown-5 (1−6) are reported. The overall conformation of 1−6 was deduced by NMR spectroscopy and further proven by single-crystal X-ray analysis for (1,3)-bridged cone and (1,2)-bridged 1,2-alternate conformers 1 and 6. Compounds 1−6 form 1:1 complexes with alkali-metal cations. The complexation sites and solution structures for Na+ and K+ complexes have been determined by 1H NMR titration experiments. The binding affinities of ligands 1−6 for alkali-metal ions have been assessed by phase transfer and stability constant measurements using spectrophotometric, potentiometric, and calorimetric techniques. All 1,3-bridged calixcrowns 1−3 show a strong affinity for K+ (partial cone 2 and 1,3-alternate 3 also for Rb+), conformer 3 being slightly more selective than the naturally occurring ionophore valinomycin. Conversely, 1,2-bridged calixcrowns 4−6 are less efficient and their selectivities vary from K+ for cone 4 to both K+ and Rb+ for partial cone 5 and to Cs+ for 1,2-alternate conformer 6.
Synthesis, structural characterization, and alkali-metal complexation of the six possible (1,3)- and (1,2)-bridged p- tert-butylcalix[4]crown-5 conformers bearing alpha-picolyl pendant groups
NOTTI, Anna;PARISI, Melchiorre;
1998-01-01
Abstract
Complementary synthetic strategies leading to the six possible regioisomers and conformational isomers of bis[(α-picolyl)oxy]-p-tert-butylcalix[4]crown-5 (1−6) are reported. The overall conformation of 1−6 was deduced by NMR spectroscopy and further proven by single-crystal X-ray analysis for (1,3)-bridged cone and (1,2)-bridged 1,2-alternate conformers 1 and 6. Compounds 1−6 form 1:1 complexes with alkali-metal cations. The complexation sites and solution structures for Na+ and K+ complexes have been determined by 1H NMR titration experiments. The binding affinities of ligands 1−6 for alkali-metal ions have been assessed by phase transfer and stability constant measurements using spectrophotometric, potentiometric, and calorimetric techniques. All 1,3-bridged calixcrowns 1−3 show a strong affinity for K+ (partial cone 2 and 1,3-alternate 3 also for Rb+), conformer 3 being slightly more selective than the naturally occurring ionophore valinomycin. Conversely, 1,2-bridged calixcrowns 4−6 are less efficient and their selectivities vary from K+ for cone 4 to both K+ and Rb+ for partial cone 5 and to Cs+ for 1,2-alternate conformer 6.Pubblicazioni consigliate
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