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Synthesis and Coordination Properties of Quinoline Pendant Arm Derivatives of [9]aneN3 and [9]aneN2S as Fluorescent Zinc Sensors

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posted on 2009-10-05, 00:00 authored by Marta Mameli, M. Carla Aragoni, Massimiliano Arca, Marta Atzori, Andrea Bencini, Carla Bazzicalupi, Alexander J. Blake, Claudia Caltagirone, Francesco A. Devillanova, Alessandra Garau, Michael B. Hursthouse, Francesco Isaia, Vito Lippolis, Barbara Valtancoli
The coordination chemistry of three new quinoline pendant arm derivatives of [9]aneN3 (L1, L2) and [9]aneN2S (L3) toward CuII, ZnII, CdII, HgII, and PbII has been investigated both in solution and in the solid state. The protonation constants for L1L3 and stability constants with the aforementioned metal ions have been determined potentiometrically in 0.10 M NMe4Cl MeCN/H2O (1:1 v/v) solution at 298.1 ± 0.1 K; the measured values show that CuII has the highest affinity for all three ligands, followed by ZnII, HgII, PbII, and CdII. For each metal ion considered, 1:1 complexes with L1L3 have also been isolated in the solid state and [Cu(L1)](BF4)2 (1), [Zn(L1)](BF4)2 (2), [Cd(L1)](ClO4)2 (3), [Hg(L1)](NO3)2 (4), [Pb(L1)](ClO4)2·MeCN (5), [Zn2Cl2(L2)2](BF4)2·1/2MeNO2·H2O (6), [Cu(L3)](ClO4)2 (7), [Zn(L3)(NO3)]NO3 (8), [Cd(L3)(NO3)0.82Cl0.18]NO3 (9), and [Hg(L3)](ClO4)2·MeCN (10) have also been characterized by X-ray crystallography. The optical response of L1L3 to the presence of the above-mentioned metal ions has been investigated in MeCN/H2O (1:1 v/v) and H2O solutions. All three ligands show a stronger “OFF-ON” CHEF (chelation enhancement of fluorescence) effect in the ZnII complexes than in the CdII complexes in both media. The results have been examined by considering the ratio Irel(ZnII)/Irel(CdII), within the emerging idea that the relative strength of the CHEF effect for the small ZnII ion as compared to larger CdII ion might be determined by steric crowding in the corresponding complexes with quinoline-based fluorescent chemosensors.

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