Data di Pubblicazione:
2008
Abstract:
The tripodal system [1]3+ forms a 1:1 complex with CoII in which the metal is octahedrally coordinated by three bpy
fragments. The [CoII(1)]5+ complex provides a cavity suitable for solvent or anion inclusion. X-ray diffraction studies
on the crystalline complex salt of formula [CoII(1) · · ·H2O]Cl(PF6)4 · 2MeCN have shown that a water molecule is
included in the cavity and the water oxygen atom receives six H-bonds from the C-H fragments of the three
imidazolium subunits and of the three proximate pyridine rings, according to a slightly distorted trigonal prismatic
geometry. Anion inclusion in an aqueous MeCN solution induces a distinct cathodic shift of the potential of the
CoIII/CoII couple, whose magnitude decreases along the series: Cl- > Br- ∼ NCO- > I- ∼ NCS-, which reflects
anion tendencies to receive H-bonds from the receptor. The variation of the water content in the MeCN solution
(from 0 to 20%) induces a gradual change of the voltammetric response to anion titration: from two well distinguished
peaks at a fixed potential to a single peak progressively shifted to a more cathodic potential. Such a behavior
parallels the gradual decrease of the equilibrium constant for anion inclusion into the [CoII(1)]5+ receptor
fragments. The [CoII(1)]5+ complex provides a cavity suitable for solvent or anion inclusion. X-ray diffraction studies
on the crystalline complex salt of formula [CoII(1) · · ·H2O]Cl(PF6)4 · 2MeCN have shown that a water molecule is
included in the cavity and the water oxygen atom receives six H-bonds from the C-H fragments of the three
imidazolium subunits and of the three proximate pyridine rings, according to a slightly distorted trigonal prismatic
geometry. Anion inclusion in an aqueous MeCN solution induces a distinct cathodic shift of the potential of the
CoIII/CoII couple, whose magnitude decreases along the series: Cl- > Br- ∼ NCO- > I- ∼ NCS-, which reflects
anion tendencies to receive H-bonds from the receptor. The variation of the water content in the MeCN solution
(from 0 to 20%) induces a gradual change of the voltammetric response to anion titration: from two well distinguished
peaks at a fixed potential to a single peak progressively shifted to a more cathodic potential. Such a behavior
parallels the gradual decrease of the equilibrium constant for anion inclusion into the [CoII(1)]5+ receptor
Tipologia CRIS:
1.1 Articolo in rivista
Keywords:
Electrochemistry; Sensing of Anions; Inorganic chemistry
Elenco autori:
Amendola, Valeria; Boiocchi, Massimo; B., Colasson; Fabbrizzi, Luigi; Monzani, Enrico; M. J., Douton Rodriguez; C., Spadini
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