A Cd(II) and Zn(II) selective naphthyl based [2]rotaxane acts as an exclusive Zn(II) sensor upon further functionalization with pyrene

A new multi-functional [2]rotaxane, ROTX, has been synthesized via a Cu(I) catalysed azide-alkyne cycloaddition reaction between Ni(II) templated azide terminated pseudorotaxane composed of a naphthalene based heteroditopic wheel, NaphMC, and an alkyne terminated stopper. Subsequently, ROTX has been functionalized with pyrene moieties to develop a bifluorophoric [2]rotaxane, PYROTX, having naphthalene and pyrene moieties. Detailed characterization of these two rotaxanes is performed by utilizing several techniques such as ESI-MS, (1D and 2D) NMR, UV/Vis and PL studies. Comparative metal ion sensing studies of NaphMC (a fluorophoric cyclic receptor), ROTX ([2]rotaxane with a naphthyl fluorophore) and PYROTX ([2]rotaxane having naphthyl and pyrene fluorophores) have been performed to determine the effect of dimensionality/functionalization on the metal ion selectivity. Although NaphMC fails to discriminate between metal ions, ROTX serves as a selective sensor for Zn(II) and Cd(II). Importantly, PYROTX shows exclusive selectivity towards Zn(II) over various transition, alkali and alkaline earth metal ions including Cd(II).

Automated summary

A new multi-functional [2]rotaxane, ROTX, was synthesized and functionalized with pyrene moieties to develop a bifluorophoric [2]rotaxane, PYROTX. Metal ion sensing studies showed that ROTX is selective for Zn(II) and Cd(II), while PYROTX exhibits exclusive selectivity towards Zn(II) over various other metal ions.