Electrofluorochromic Detection of Cyanide Anions Using a Nanoporous Polymer Electrode and the Detection Mechanism.

An electrofluorochromic (EFC) conjugated copolymer ( P_EFC) containing carbazole and benzothiadiazole (BTD) moieties is synthesized through Suzuki coupling followed by electrochemical polymerization, resulting in a nanoporous EFC polymer electrode. The electrode exhibits high sensitivity and selectivity in the EFC detection of cyanide anions (CN⁻) in largely aqueous electrolyte (67 vol % water) because electrochemical oxidation of P_EFC leads to significant fluorescence quenching, and the presence of different concentrations (1 to 100 μ M) of CN⁻ in the electrolyte can weaken the oxidative quenching to substantially different extents. Although P_EFC is hydrophobic in the neutral state, it is converted to radical cation/dication states upon oxidation, rendering the P_EFC some hydrophilicity. Moreover, its nanoporous morphology provides a large surface area and short diffusion distance, facilitating the movement of CN⁻ in the electrolyte into the P_EFC film to interact with receptors. Density functional theory calculations show that the noncovalent interaction between electron-deficient BTD and nucleophilic CN⁻ is energy favorable in the oxidized states in both aqueous and organic media, suggesting that the specific π⁻-π⁺ interaction plays the main role in the CN⁻ detection. [ABSTRACT FROM AUTHOR]