Optical detection of Cu²⁺ ion using a SQ-dye containing polymeric thin-film on Au surface

In this study, we have fabricated Cu²⁺ ion sensor using a squarylium dye (SQ-dye) containing polymeric thin-film. Surface Plasmon Resonance (SPR) was used as a signal amplifier to achieve high sensitivity and large linear dynamic range for detection of Cu²⁺ ion. High selectivity to Cu²⁺ ion was obtained by the effective electro-static interaction between SQ-dye and Cu²⁺ ion in the polymeric film. The optimal analytical condition of high selectivity and sensitivity in the wider linear dynamic range obtained in this study may be a result of the cooperative 'hard-soft' metal ion-ligand interaction and effective detection of refractive index changes by the complexation of Cu²⁺ ion and SQ-dye in SPR measurement. Among 10 different alkali metal, alkaline earth metal, and transition metal ions, SQ-dye in poly(vinylchloride)-poly(vinyl acetate)-poly(vinyl alcohol) (PVC-PVAc-PVA) copolymer film showed the highest selectivity to Cu²⁺ ion. Although the interaction between SQ-dye and metal ions has not been well understood, both cooperative 'hard-soft' metal ion-ligand interaction and size-selective recognition of Cu²⁺ ion to SQ-dye may contribute to high selectivity. Furthermore, additional sensitivity in the detection of Cu²⁺ ion by SPR was obtained by matching the wavelength of probing radiation of SPR and absorption maximum of SQ-dye at 675 nm, which allow to detect small changes in the refractive index by complex formation on the sensing surface. This result may apply in development of the Cu²⁺ ion selective sensor for medical, biochemical, and environmental applications.