Supramolecular Handshakes: Characterization of Urea‐Carboxylate Interactions Within Calixarene Frameworks

Cvetnić, M.; Cindro, N.; Topić, E.; Bregović, N.; Tomišić, V.

doi:10.1002/cplu.202400130

ChemPlusChem

2024

DOI: 10.1002/cplu.202400130

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Supramolecular Handshakes: Characterization of Urea‐Carboxylate Interactions Within Calixarene Frameworks

M. Cvetnić,

N. Cindro,

E. Topić

et al.

Abstract: The research of molecular capsules offers high application potential and numerous benefits in various fields. With the aim of forming supramolecular capsules which can be reversibly assembled and dissociated by simple external stimuli, we studied interactions between calixarenes containing urea and carboxylate moieties. To this end two ureido‐derivatives of p‐tert‐butylcalix[4]arene comprising phenylureido‐moieties and diacetate‐calix[4]arenes were prepared. The binding of acetate by ureido‐derivatives of cali… Show more

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2024

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Thermodynamics of Anion Binding by (Thio)ureido-calix[4]arene Derivatives in Acetonitrile

Cvetnić,

Cindro,

Bregović

et al. 2024

ACS Phys. Chem Au

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In this work, we developed (thio)ureido-calix[4]arene derivatives and thoroughly explored their anion-binding properties in acetonitrile. A series of anions, including important inorganic ones (Cl − , HSO 4 − , H 2 PO 4 − , and HP 2 O 7 3−) and several ever-present carboxylates (acetate, benzoate, and fumarate), were studied. All systems were investigated by several methods (NMR, ITC, and UV) used in a synergistic fashion, providing their comprehensive thermodynamic description. Acidities of the receptors were determined prior to the anion-binding studies and considered in the data-handling procedures. Complexes of various stoichiometries were detected and the driving force for their formation elucidated. The correlation of the anion structural features and H-bond acceptor properties with the stoichiometries and complexation thermodynamics parameters was rationalized. Generally, stability of the complexes followed the trend defined by the basicity of anions. Thiourea and urea analogues exhibited similar affinities for anion binding except for the H 2 PO 4 − and HP 2 O 7 3−, which interacted with the thiourea analogue more strongly. The hosts endowed with 4 (thio)urea groups formed species containing two receptor molecules bridged by a fumarate or hydrogen pyrophosphate anion. Thermodynamic information provided in this work is applicable in further design of supramolecular systems, whereas the presented approach to data handling will aid researchers when dealing with multiple coexisting equilibria.

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Thermodynamics of Anion Binding by (Thio)ureido-calix[4]arene Derivatives in Acetonitrile

Cvetnić,

Cindro,

Bregović

et al. 2024

ACS Phys. Chem Au

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show abstract

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Supramolecular Handshakes: Characterization of Urea‐Carboxylate Interactions Within Calixarene Frameworks

Cited by 1 publication

References 98 publications

Thermodynamics of Anion Binding by (Thio)ureido-calix[4]arene Derivatives in Acetonitrile

Thermodynamics of Anion Binding by (Thio)ureido-calix[4]arene Derivatives in Acetonitrile

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