Data di Pubblicazione:
2018
Abstract:
This is a short overview on azacryptands, as molecular receptors for cations and anions. A particular
attention was devoted to the results obtained by women researchers working in the field. The terms
‘cryptand’ and ‘cryptate’ were coined by Lehn. Since then, much work has been done to improve
the knowledge on this class of receptors. Small azacryptands, as free bases, were found to bind a
single metal ion within their cavities. When fully protonated, the same systems could also behave
as selective hosts for anions, through the cooperation of H-bonding and electrostatic interactions.
Proceeding to systems with larger cavities, the inclusion of two metal ions and a bridging anion
was possible, forming the so-called ‘cascade’ complexes. Azacryptates carrying fluorescent spacers
or exploiting the indicator displacement paradigm allowed the sensing of anionic species in water
at micromolar concentrations. Moreover, immobilisation on solid matrices and surfaces yielded
new materials for the solid-phase extraction of anionic pollutants and the construction of selective
electrodes for analytes in water.
attention was devoted to the results obtained by women researchers working in the field. The terms
‘cryptand’ and ‘cryptate’ were coined by Lehn. Since then, much work has been done to improve
the knowledge on this class of receptors. Small azacryptands, as free bases, were found to bind a
single metal ion within their cavities. When fully protonated, the same systems could also behave
as selective hosts for anions, through the cooperation of H-bonding and electrostatic interactions.
Proceeding to systems with larger cavities, the inclusion of two metal ions and a bridging anion
was possible, forming the so-called ‘cascade’ complexes. Azacryptates carrying fluorescent spacers
or exploiting the indicator displacement paradigm allowed the sensing of anionic species in water
at micromolar concentrations. Moreover, immobilisation on solid matrices and surfaces yielded
new materials for the solid-phase extraction of anionic pollutants and the construction of selective
electrodes for analytes in water.
Tipologia CRIS:
1.1 Articolo in rivista
Keywords:
cryptands and cryptates; molecular recognition and molecular cages
Elenco autori:
Amendola, Valeria; Bergamaschi, Greta; Miljkovic, Ana
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