We describe the synthesis and characterization of a [2]rotaxane based on a bis calix[4]pyrrole (C[4]P) macrocycle containing two different “two-walls” aryl-extended C[4]P binding sites connected by a triazole spacer and a 3,5-bis-amidopyridyl-N-oxide derivative as a linear component. Our study focuses on the binding properties of the interlocked receptor towards chloride, cyanate, and nitrate tetraalkylammonium salts. We use 1H NMR spectroscopy and isothermal titration calorimetry (ITC) experiments to monitor the formation and thermodynamically characterize the complexes, respectively. The results show that adding 1 equiv. of the tetraalkylammonium salts (ion-pairs) to a millimolar receptor solution produces the quantitative assembly of two 1:1 isomeric inclusion complexes. The isomeric complexes differ in the anion’s and axle’s relative locations concerning the two chemically non-equivalent C[4]P hemispheres of the macrocyclic component. The interlocked receptor shows a remarkable selectivity for nitrate over chloride and cyanate binding in acetone and chloroform solutions. Ion-paired complexes are mainly formed in chloroform solution, while the anionic counterparts are prevalent in the more polar acetone solvent. We also compare the binding properties exhibited by the interlocked receptor with those previously reported for a [2]rotaxane analog featuring a slightly larger macrocyclic component and two identical binding sites.

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