In this paper we report the binding properties, by combined1H NMR, optical absorption, and fluorescence studies, of a molecular tweezer composed of two Zn(salen)‐type Schiff‐base units connected by a flexible spacer, towards a series of ditopic diamines having a strong Lewis basicity, with different chain length and rigidity. Except for the 1,2‐diaminoethane, in all other cases the formation of stable 1:1 Lewis acid‐base adducts with large binding constants is demonstrated. For α,ω‐aliphatic diamines, binding constants progressively increase with the increasing length of the alkyl chain, thanks to the flexible nature of the spacer and the parallel decreased conformational strain upon binding. Stable adducts are also found even for short diamines with rigid molecular structures. Given their preorganized structure, these latter species are not subjected to loss of degrees of freedom. The binding characteristics of the tweezer have been exploited for the colorimetric and fluorometric selective and sensitive detection of piperazine.

Binding properties of a dinuclear zinc(Ii) salen‐type molecular tweezer with a flexible spacer in the formation of lewis acid‐base adducts with diamines

Munzi G.;Consiglio G.;Failla S.;Di Bella S.
2021-01-01

Abstract

In this paper we report the binding properties, by combined1H NMR, optical absorption, and fluorescence studies, of a molecular tweezer composed of two Zn(salen)‐type Schiff‐base units connected by a flexible spacer, towards a series of ditopic diamines having a strong Lewis basicity, with different chain length and rigidity. Except for the 1,2‐diaminoethane, in all other cases the formation of stable 1:1 Lewis acid‐base adducts with large binding constants is demonstrated. For α,ω‐aliphatic diamines, binding constants progressively increase with the increasing length of the alkyl chain, thanks to the flexible nature of the spacer and the parallel decreased conformational strain upon binding. Stable adducts are also found even for short diamines with rigid molecular structures. Given their preorganized structure, these latter species are not subjected to loss of degrees of freedom. The binding characteristics of the tweezer have been exploited for the colorimetric and fluorometric selective and sensitive detection of piperazine.
2021
Lewis acid‐base adducts
Molecular tweezers
Schiff‐bases
Zinc(II) complexes
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.11769/510343
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