Zn-cycloalkyldicarboxylate 2D-Coordination Polymers bearing 4,4'-trimethylenebipyridine: Crystal structures, Solid state CPMAS 13C NMR Structural Correlations and Luminescent Sensing of Ethanol

Abstract

Self-assembly reactions of Zn(II) with cyclobutane-1,1'-dicarboxylate (cbdc) or cyclohexane-1,1´-dicarboxylate (chdc) and 4,4'-trimethylenebipyridine (tmbp) generated three flexible mixed-ligands coordination polymers: {[Zn(cbdc)(tmbp)]·(H2O)}n, 1; {[Zn(H2O)(cbdc)(tmbp)]}n, 2; and {[Zn(chdc)(tmbp)]·H2O}n, 3. These crystalline polymers were characterized by elemental analyses, FT-IR, single-crystal X-ray diffraction, Hirshfeld surfaces, and cross polarization-magic angle spinning (CPMAS) 13C NMR, feature two-dimensional (2D) coordination arrays, with different topologies. The CPMAS solid-stste 13C NMR spectra of 1-3 depict the symmetry-independent aromatic and aliphatic carbon atoms and the tmbp/cbdc-to-chdc ligand ratio in agreement with the asymmetric unit from crystal structures. The solid-state luminescence properties of 1–3 were investigated; 1 and 3 exhibited a strong blue emission at 440 nm and 436 nm, respectively, upon excitation at 330 nm, compared to 2. Structure-related photoluminescence is attributed to bidentate effective bidentate coordination mode of fluorescent ligand tmbp in 1 and 3. In particular, polymer 3 is photostable in ethanolic solution in micromolar concentration range with emission at 431 nm, a quantum yield of Φ = 0.11 and bi-exponential lifetimes of τ1= 5.02 ns and τ2= 1.13 ns. Furthermore, Zn(II)-polymer 3, suspended in water, allows the fluorescence selective sensing of ethanol over common organic solvents such as alcohols, DMF, DMSO, THF and CH3CN, based on a turn-on fluorescence intensity with a limit of 11.9±0.2 μM. The use of flexible Zn(II)-coordination polymers as fluorescent sensors for fast and selective detection of ethanol in aqueous setting has been unexplored until now.