A new (8-hydroxyquinolin-2-yl)methylene picolinohydrazide derivative (L) has been successfully synthesized and characterized. The probe L displays high selectivity to Co^2+ in CH3CN/HEPES (1:1, V/ V, 10 mmol.L^...A new (8-hydroxyquinolin-2-yl)methylene picolinohydrazide derivative (L) has been successfully synthesized and characterized. The probe L displays high selectivity to Co^2+ in CH3CN/HEPES (1:1, V/ V, 10 mmol.L^-1 pH=7.4) with a fluorescence "ON-OFF" response. The Co^2+ ion recognition event possesses some distinct features including rapid response, high selectivity and sensitivity, good anti-interference ability and being applicable within a wide pH range. Based on job's plot and ESI-MS studies, the 1 : 1 binding mode was proposed. The binding constant of L and Co2+ is 1.63×10^8 L·mol^-1 and the detection limit is 1.15μmol·L^-1. Natural water samples experiments revealed that probe L can be potentially applied to the detection of Co^2+ in real environment.展开更多
文摘A new (8-hydroxyquinolin-2-yl)methylene picolinohydrazide derivative (L) has been successfully synthesized and characterized. The probe L displays high selectivity to Co^2+ in CH3CN/HEPES (1:1, V/ V, 10 mmol.L^-1 pH=7.4) with a fluorescence "ON-OFF" response. The Co^2+ ion recognition event possesses some distinct features including rapid response, high selectivity and sensitivity, good anti-interference ability and being applicable within a wide pH range. Based on job's plot and ESI-MS studies, the 1 : 1 binding mode was proposed. The binding constant of L and Co2+ is 1.63×10^8 L·mol^-1 and the detection limit is 1.15μmol·L^-1. Natural water samples experiments revealed that probe L can be potentially applied to the detection of Co^2+ in real environment.
